CN207700022U - A kind of Automatic Control pavement marker - Google Patents

Abstract

The utility model is related to a kind of Automatic Control pavement markers, including holder, melt storehouse, filler bin, resin storehouse, melting mixing component and spray assembly, melting mixing component includes the first transmission assembly, it heats component and air-flow imports component, air-flow forms negative pressuren zone after the air-flow imports component outflow, the mixed material of resin and powder through the transmission of the first transmission assembly is in its dropping process, coating molding production is carried out while carrying out liquefaction processing in melting zone through heating component, the coating formed after the melting of melting mixing component is fallen in the spraying storehouse in melting orlop portion, output spraying is carried out after being set the uniform stirring mixing of portion's stirring output section progress coating in the inner；While by carrying out liquefaction processing in the fixed mixed material dropping process than configuration, increase the contact area of liquid resin and powder with air-flow, realizes that resin is mixed with the uniform of powder, solve the technical problem of coating mixing uniformity difference existing in the prior art.

Description

A kind of Automatic Control pavement marker

Technical field

The utility model belongs to traffic route road sign mechanical application technical field, and in particular to a kind of Automatic Control road Striping machine.

Background technology

Graticule has become an important component of highway security construction, and the discussion of graticule has no longer been begged for It is whether effective by graticule, if but maximally efficient graticule system can be provided with minimum input discussing；Existing road Change colour after marking lines through a long time use, causes roadmarking unintelligible, be easy to cause traffic accident；Existing jet printing type Pavement marker needs coating in advance that proportioning is thoroughly mixed according to the rules, and the coating mixed is put into road when construction In striping machine, and the coating mixed is easy to solidify, therefore can be solidified in storage vat, pipeline, valve, makes the repair of equipment Rate greatly improves, and with surplus coating can not recycling, shown extra coating, which can only be done, scraps processing, causes wave Take.

Chinese Patent Application No. is：A kind of multigroup part of road mark paint spraying disclosed in CN200520136857.2 Pen machine, the pen machine are two groups or three groups of coating supplies, compression system, cleaning system, mixer and spray guns by dynamical system Composition；In spraying, multigroup part of road mark paint is stored respectively before spraying, the feed of each component coating, pressurization, balance Pressure, proportioning, mixing are to be automatically performed by equipment, then by the ejection of spray gun, react and solidify in road surface, form one layer of painting Layer graticule.The pen machine can spray the various multigroup part of road mark paints in current use, after construction, only need to clean mixing The component of device solidifies the accident of equipment scrapping of causing in a device to solve compo, and more component coatings are advance Many problems such as mixed preparing.The pen machine is safe and reliable, it is easy to operate, construction efficiency is high, graticule stable quality, save it is former Material.

Each component coating is sucked high-pressure plunger pump from storage vat by suction type and added by it in the above-mentioned technical solutions Mixer is reached by shut-off valve after pressure, the mixing of progress internal mixer coating in equipment walk process, however its each component It is fed for discontinuity, then in being mixed in mixer；It is generally known that being stirred with more two kinds or more of components Mixing, mixing uniformity is directly proportional to a certain extent to incorporation time, the reality of structure scoring equipment during the work time Situation, therefore its incorporation time is shorter, therefore its mixing uniformity is poor, so as to cause scribed graticule poor quality, drop The low using effect of roadmarking.

Utility model content

The purpose of this utility model is in view of the deficiencies of the prior art, to provide a kind of Automatic Control pavement marker, is led to It crosses in the fixed mixed material dropping process than configuration while carry out liquefaction processing, connecing for liquid resin and powder is increased with air-flow Contacting surface is accumulated, and realizes that resin is mixed with the uniform of powder, the technology for solving coating mixing uniformity difference existing in the prior art is asked Topic.

To achieve the above object, the utility model provides the following technical solutions：

A kind of Automatic Control pavement marker, including holder, melting storehouse and be located on the melting storehouse and and its Inside connection filler bin and resin storehouse, further include：

Melting mixing component, the melting mixing component are set to inside the melting storehouse comprising respectively through filler bin Powder and conveyed resin are wandered with Curtain structure with resin storehouse the first transmission assembly, the heat below first transmission assembly Molten component and the air-flow between the hot melt component and the first transmission assembly import component, and air-flow imports component through the air-flow Negative pressuren zone is formed with one side after outflow, which is located at the end of first transmission assembly, is passed through the first transmission assembly The mixed material of defeated resin and powder is in its dropping process, through the hot melt component in carrying out liquefaction processing in melting zone It is carried out at the same time coating molding production；

Spray assembly, the coating formed after melting mixing component melting fall within the spray in the melting orlop portion It applies in storehouse, output spraying is carried out after being set the uniform stirring mixing of portion's stirring output section progress coating in the inner.

Wherein, the hot melt component includes carrying out the liquefied hot melt portion of resin in a manner of heat radiation and being set to described The heat build-up component being oppositely arranged below first transmission assembly and with the hot melt portion, the heat build-up component generate the hot melt portion Heat radiation carries out heat concentration, and in forming the areas Re Jiao in the melting zone, the heat build-up component is not located at the heat-fused portion The both sides of the melting zone.

As an improvement, the melting mixing component further includes importing the flow generator that component is connected with the air-flow, It is connected inside the inlet end of the flow generator and the melting storehouse, and positioned at the top in the spraying storehouse.

As an improvement, the melting mixing component further includes the second transmission assembly being set to below hot melt component, mixing Material coating for being formed after hot melt component hot melt processing is wandered on second transmission assembly, in membranaceous liquid structure and the The powder that two transmission assembly surfaces are scattered carries out secondary mixing.

As an improvement, first transmission assembly is inclined plate structure setting, the powder should in overlaying state edge with resin First transmission assembly is wandered in the melting zone.

As an improvement, it is the internal rhs-structure in the setting of bar shaped sealing that the air-flow, which imports component, air-flow is through the air-flow Component is imported to flow out to form flow area.

As an improvement, the stirring output section is arranged for propeller arrangement, the inside of outer circumference surface and the spraying storehouse It is equipped with, forms in rotation process and below compressional zone.

As an improvement, the heat build-up component is arranged for arc plate structure, the concave surface of the arc panel is heat safe minute surface knot Structure is arranged, and the upper end of the heat build-up component is connected with first transmission assembly.

As an improvement, second transmission assembly be inclined plate setting, and its upper and lower ends respectively with the hot melt component and Spraying storehouse is connected.

As an improvement, the inclined plate inclined direction of second transmission assembly and first transmission assembly is oppositely arranged.

The beneficial effects of the utility model are：

(1) resin and powder are wandered with heavy curtain state in mixing biography through it on first transmission assembly in the utility model It transports in melting zone, while air-flow imports component output through air-flow, the absorption of powder and resin is carried out through negative pressuren zone, improves it While efficiency of transmission, make powder full of in melting zone, in addition, resin is nutty structure, hot melt component carries out the liquid of resin Change processing after form liquid unit, each liquid unit carries out contact with the powder in melting zone and mixes, to improve resin and The mixing uniformity of powder has certain viscosity additionally, due to resin solution, and in its forming process, component is imported through air-flow In gas brush, realize the stretching of solution, to increase its surface area, further refine resin and powder mixed-precision, The mixing uniformity for improving resin and solution, to improve coating quality；

(2) in the present invention hot melt component include carried out in a manner of heat radiation the liquefied hot melt portion of resin and with institute The heat build-up component that hot melt portion is oppositely arranged is stated, the areas Re Jiao being located inside the melting zone are formed, with the hot melt portion being oppositely arranged While carrying out being in the Bidirectional heating of mixed material in melting zone with heat build-up component, formed with high temperature by heat build-up component The areas Re Jiao of effect carry out the fast liquefying of mixed material, while raising is formed the efficiency of coating by mixed material, reduce tree Fat viscosity, in conjunction with air-flow import component caused by air-flow, further increase the drawing effect of liquid resin, to resin with Being uniformly mixed for powder has facilitation；

(3) air-flow caused by air-flow importing component is generated by the flow generator communicated therewith in the utility model, together When its other end be located at the top in the spraying storehouse, windstream is formed by flow generator, improves mixed material and coating While efficiency of transmission, it will be in the energy caused by hot melt portion in melting zone, spraying Cang Chu is brought by air-flow, carries out coating Isothermal holding, and then reduce its viscosity, prevent it from generating bonding in flow process, in addition passed heat by flow generator It transports to air-flow and imports at component the pre-heat treatment for carrying out resin and powder, so that resin surface is softened, in advance bond part powder The viscosity of coating is reduced while raising resin is uniformly mixed with powder in resin particle surfaces, the longevity is used to improve equipment Life；

In short, the utility model have it is simple in structure, low manufacture cost and proportioning it is uniform, melt-blended fully.

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 for those of ordinary skill in the art, without creative efforts, it can also obtain according to these attached drawings Obtain other accompanying drawings.

Fig. 1 just cuts open structural schematic diagram for the utility model；

Fig. 2 is close-up schematic view at A-A in Fig. 1；

Fig. 3 is enlarged diagram at B in Fig. 1；

Fig. 4 is melting zone close-up schematic view；

Fig. 5 is enlarged diagram at C in Fig. 1；

Enlarged drawing at D in Fig. 6 Fig. 1；

Fig. 7 is that air-flow imports component vertical view close-up schematic view；

Fig. 8 is enlarged diagram at E in Fig. 1.

Specific implementation mode

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

Embodiment one

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model Limitation.

As illustrated in fig. 1 and 2, the utility model provides a kind of Automatic Control pavement marker, including holder 1, melting Storehouse 2 and the filler bin 3 and resin storehouse 4 for being located on the melting storehouse 2 and being connected to its inside further include：

Melting mixing component 5, the melting mixing component 5 are set to inside the melting storehouse 2 comprising respectively through powder Storehouse 3 and resin storehouse 4 are wandered the first transmission assembly 51 of powder and conveyed resin with Curtain structure, are located at first transmission assembly 51 The hot melt component 52 of lower section and the air-flow between the hot melt component 52 and the first transmission assembly 51 import component 53, air-flow It is imported after component 53 flows out through the air-flow and forms negative pressuren zone 54 with one side, which is located at first transmission assembly 51 End, through the first transmission assembly 51 transmission resin and powder mixed material in its dropping process, through the hot melt group Part 52 carries out coating molding production while carrying out liquefaction processing in melting zone 55；

Spray assembly 6, the coating formed after the melting mixing component 5 melting are fallen in 2 bottom of melting storehouse Spraying storehouse 21 in, be set portion in the inner stirring output section 61 carry out coating uniform stirring mixing after carry out output spray It applies.

During the work time, it as shown in Fig. 1,3 and 4, carries out determining ratio respectively with Curtain structure through filler bin 3 and resin storehouse 4 The powder of output falls with resin stream and is fallen in melting zone 55 through its transport stream on the first transmission assembly 51, de- in mixed material While from the first transmission assembly 51, drive powder packed in melting zone 55 by air-flow, in forming powder in melting zone 55 Material surrounds the mixing resultant of resin, and during heating 52 liquefaction of component processing, resin solution carries out contact with powder and mixes, It realizes the first uniform mixed processing of resin and powder, while air-flow caused by component 53 is imported by air-flow through liquefied resin It is brushed, realizes the stretching of solution unit, increased the contact area of resin solution and powder, further increase resin and powder Uniform mixing, be formed by through melting mixing component 5 in the spraying storehouse 21 that coating is wandered in spray assembly 6, it is agitated defeated Go out after portion 61 is stirred mixing again and carries out output spraying.

It should be noted that as shown in Figures 3 and 4, resin is wandered with heavy curtain state in first transmission assembly with powder Through in its mixed transport to melting zone 55, while air-flow imports the output of component 53 through air-flow, powder is carried out through negative pressuren zone 54 on 51 The absorption of material and resin while improving its efficiency of transmission, makes powder be full of in melting zone 55, in addition, resin is graininess knot Structure forms liquid unit, each liquid unit and the powder in melting zone 55 after the liquefaction processing of the hot melt progress resin of component 52 Contact mixing is carried out, to improve the mixing uniformity of resin and powder, there is certain viscosity additionally, due to resin solution, In its forming process, the gas imported in component 53 through air-flow brushes, and realizes the stretching of solution, to increase its surface area, into The mixed-precision of step refining resin and powder improves the mixing uniformity of resin and solution, to improve coating quality.

Embodiment two

As shown in Figure 1, wherein identical as embodiment one or corresponding component uses reference numeral corresponding with embodiment one, For simplicity, the distinctive points with embodiment one are hereafter only described.The embodiment two and embodiment one the difference is that：It is described Hot melt component 52 includes carrying out the liquefied hot melt portion 521 of resin in a manner of heat radiation and being set to first transmission assembly The heat build-up component 522 being oppositely arranged below 51 and with the hot melt portion 521, the heat build-up component 522 produce the hot melt portion 521 Raw heat radiation carries out heat concentration, in the areas formation Re Jiao 523, the heat build-up component 522 and the heat in the melting zone 55 Molten portion 521 is located at the both sides of the melting zone 55, and the heat generated by hot melt portion 521 mixed in melting zone 55 While closing the liquefaction processing of material, waste heat caused by hot melt portion 521 is assembled by heat build-up component 522, to The temperature at the areas Re Jiao 523 is improved, improves the liquefaction effect of mixed material, while increasing capacity usage ratio.

It should be noted that as shown in figs. 1 and 4, hot melt component 52 includes carrying out the liquefied heat of resin in a manner of heat radiation Molten portion 521 and the heat build-up component 522 being oppositely arranged with the hot melt portion 521, form the heat being located inside the melting zone 55 Burnt area 523 with the hot melt portion 521 being oppositely arranged and heat build-up component 522 in the two-way of mixed material in melting zone 55 add While hot, the areas Re Jiao 523 with high temp effect are formed by heat build-up component 522, carry out the fast liquefying of mixed material, While raising is formed the efficiency of coating by mixed material, resin viscosity is reduced, gas caused by component 53 is imported in conjunction with air-flow Stream, further increases the drawing effect of liquid resin, to being uniformly mixed with facilitation to resin and powder.

Embodiment three

As shown in Figure 1, wherein identical as embodiment two or corresponding component uses reference numeral corresponding with embodiment two, For simplicity, the distinctive points with embodiment two are hereafter only described.The embodiment three and embodiment two the difference is that：It is described Melting mixing component 5 further includes importing the flow generator 57 that component 53 is connected with the air-flow, the flow generator 57 It is connected inside inlet end and the melting storehouse 2, and positioned at the top in the spraying storehouse 21, will be in molten through flow generator 57 Heat at tabetisol is drained while spraying on storehouse 21, carries out the isothermal holding of coating, then by the gas with heat It leads to air-flow and imports at component 53 the pre-heat treatment for carrying out powder and resin.

It should be noted that as shown in Figure 1, air-flow caused by air-flow importing component 53 is occurred by the air-flow communicated therewith Device 57 generates, while its other end is located at the top in the spraying storehouse 21, forms windstream by flow generator 57, carries While high mixed material and paint transfer efficiency, it will be in the energy caused by hot melt portion 521 in melting zone 55, by air-flow It brings spraying Cang21Chu into, carries out the isothermal holding of coating, and then reduce its viscosity, prevent it from generating bonding in flow process, In addition heat transmission to air-flow is imported into the pre-heat treatment that component 53 carries out resin and powder by flow generator 57, makes resin Surface softens, and so that part powder is bonded in resin particle surfaces in advance reduces and apply while raising resin is uniformly mixed with powder The viscosity of material, to improve service life of equipment.

Further, as shown in figure 5, the melting mixing component 5 further includes be set to 52 lower section of hot melt component second Transmission assembly 56, the coating that mixed material is formed after hot melt 52 hot melt of component processing are wandered in second transmission assembly 56 On, in membranaceous liquid structure secondary mix is carried out with the powder that 56 surface of the second transmission assembly is scattered；Resin particle is in melting zone After formation liquid particles are fallen on the second transmission assembly 56 in 55, relatively thin solution fluid layer is formed due to gravity, to Its surface area is further increased, then realizes the mixing inside resin liquid with powder.

Further, as shown in Fig. 1,2,3 and 6, first transmission assembly 51 be inclined plate structure setting, the powder with Resin is wandered along first transmission assembly 51 in the melting zone 55 in overlaying state, in the present embodiment, powder and resin It is wandered during the first transmission assembly 51 with heavy curtain state, is arranged in parallel between powder heavy curtain and resin heavy curtain, and it is thrown The width of shadow and the first transmission assembly 51 coincides.

Further, as shown in Fig. 1,3 and 7, it is the internal square tube in the setting of bar shaped sealing that the air-flow, which imports component 53, Structure, air-flow import the outflow of component 53 through the air-flow and form flow area 531, and in the present embodiment, the air-flow imports component 53 It is formed by the of same size of flow area 531 and the first transmission assembly 51, it is further to note that air-flow imports on component 53 It is arranged for closed structure positioned at the side of fusing department 521.

Further, as shown in figs. 1 and 8, the stirring output section 61 is arranged for propeller arrangement, outer circumference surface and institute State spraying storehouse 21 internal engagement setting, in rotation process with below formed compressional zone 62, by propeller arrangement into While the mixing of row coating, realize that the orientation of coating is pressurized output according to the characteristic of propeller arrangement, to be sprayed Apply scribing line operation.

Further, as shown in Figure 1, the heat build-up component 522 is arranged for arc plate structure, the concave surface of the arc panel is resistance to The mirror surface structure of high temperature is arranged, and the upper end of the heat build-up component 522 is connected with first transmission assembly 51, anti-according to light Principle is penetrated, the irradiated with thermal radiation generated by fusing department 521 is reflected to form after on heat build-up component 522 by its arcuate structure Its drawing effect is improved to improve the liquefaction efficiency of resin and the mobility of resin solution in the higher areas Re Jiao 523 of temperature.

Further, as shown in Figure 1, second transmission assembly 56 be inclined plate setting, and its upper and lower ends respectively with institute Hot melt component 52 is stated with spraying storehouse 21 to be connected；Inclined plate setting through the second transmission assembly 56, realizes melting 2 inside thermal current of storehouse It is identical as the flow direction of coating, carry out the isothermal holding for carrying out coating, it is ensured that it prevents coating viscous with preferable mobility It spends larger and is attached in equipment, equipment fault is caused, to improve the service life of the utility model.

Further, as shown in Figure 1, the inclined plate inclination side of second transmission assembly 56 and first transmission assembly 51 To being oppositely arranged, in the present embodiment, the inclined direction of the second transmission assembly 56 and the first transmission assembly 51 is oppositely arranged, and is reduced While the occupied space of equipment, when coating in transfer process into line direction change, to improve the stability inside solution, There is facilitation to the performance of coating.

In the description of the present invention, it should be understood that term "center", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", The orientation or positional relationship of the instructions such as " clockwise ", " counterclockwise " be based on the orientation or positional relationship shown in the drawings, be only for Described convenient for description the utility model and simplifying, do not indicate or imply the indicated equipment or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.

In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more this feature.The meaning of " plurality " is two or two in the description of the present invention, More than, unless otherwise specifically defined.

The foregoing description of the disclosed embodiments, make those skilled in the art do not depart from the utility model spirit and In the case of range, various changes or equivalence replacement can be carried out to these features and embodiment.In addition, in the utility model Under introduction, while such as processing by carrying out liquefaction in the fixed mixed material dropping process than configuration, liquid tree is increased with air-flow The contact area of fat and powder realizes the mixed uniformly design concept of resin and powder, can be to these features and embodiment It modifies with the spirit and scope for adapting to particular situation and material without departing from the utility model.Therefore, this practicality is new Type is not limited to the particular embodiment disclosed, and the embodiment within the scope of fallen with claims hereof all belongs to In the scope of protection of the utility model.

Claims (10)

1. a kind of Automatic Control pavement marker, including holder (1), melting storehouse (2) and it is located on the melting storehouse (2) And filler bin (3) and resin storehouse (4) being connected to its inside, which is characterized in that further include：

Melting mixing component (5), it is internal that the melting mixing component (5) is set to the melting storehouse (2) comprising respectively through powder Feed bin (3) and resin storehouse (4) are wandered the first transmission assembly (51) of powder and conveyed resin with Curtain structure, are located at first biography Hot melt component (52) below defeated component (51) and the gas between the hot melt component (52) and the first transmission assembly (51) Conductance enters component (53), and air-flow imports after component (53) flows out through the air-flow and forms negative pressuren zone (54), the negative pressuren zone with one side (54) it is located at the end of first transmission assembly (51), the mixture of resin and powder through the first transmission assembly (51) transmission Material carried out in the melting zone (55) in its dropping process, through the hot melt component (52) while liquefaction processing progress coating at Type produces；And

Spray assembly (6), the coating formed after the melting mixing component (5) melts are fallen in melting storehouse (2) bottom In the spraying storehouse (21) in portion, exported after being set the uniform stirring mixing of portion's stirring output section (61) progress coating in the inner Spraying.

2. a kind of Automatic Control pavement marker as described in claim 1, which is characterized in that hot melt component (52) packet Include the liquefied hot melt portion (521) of resin is carried out in a manner of heat radiation and be set to below first transmission assembly (51) and The heat build-up component (522) being oppositely arranged with the hot melt portion (521), the heat build-up component (522) generate the hot melt portion (521) Heat radiation carry out heat concentration, form the areas Re Jiao (523) in the melting zone (55), the heat build-up component (522) and institute State the both sides that hot melt portion (521) is located at the melting zone (55).

3. a kind of Automatic Control pavement marker as described in claim 1, which is characterized in that the melting mixing component (5) further include importing the flow generator (57) that component (53) is connected, the air inlet of the flow generator (57) with the air-flow It is connected inside end and the melting storehouse (2), and positioned at the top of spraying storehouse (21).

4. a kind of Automatic Control pavement marker as described in claim 1, which is characterized in that the melting mixing component (5) further include the second transmission assembly (56) being set to below hot melt component (52), mixed material is through heating component (52) hot melt The coating formed after processing is wandered on second transmission assembly (56), is in membranaceous liquid structure and the second transmission assembly (56) The powder that surface is scattered carries out secondary mixing.

5. a kind of Automatic Control pavement marker as described in Claims 1-4 is any, which is characterized in that described first passes Defeated component (51) is inclined plate structure setting, and the powder is wandered along first transmission assembly (51) in institute with resin in overlaying state It states in melting zone (55).

6. a kind of Automatic Control pavement marker as described in Claims 1-4 is any, which is characterized in that the air-flow is led It is the internal rhs-structure in the setting of bar shaped sealing to enter component (53), and air-flow is flowed out through air-flow importing component (53) forms air-flow Area (531).

7. a kind of Automatic Control pavement marker as described in Claims 1-4 is any, which is characterized in that the stirring is defeated Go out portion (61) for propeller arrangement to be arranged, outer circumference surface and the internal engagement of spraying storehouse (21) are arranged, and are rotating Cheng Zhongyu forms compressional zone (62) below.

8. a kind of Automatic Control pavement marker as claimed in claim 2, which is characterized in that the heat build-up component (522) It is arranged for arc plate structure, the concave surface of the arc panel is arranged for heat safe mirror surface structure, the upper end of the heat build-up component (522) It is connected with first transmission assembly (51).

9. a kind of Automatic Control pavement marker as claimed in claim 4, which is characterized in that second transmission assembly (56) it is that inclined plate is arranged, and its upper and lower ends is connected with the hot melt component (52) and spraying storehouse (21) respectively.

10. a kind of Automatic Control pavement marker as claimed in claim 4, which is characterized in that second transmission assembly (56) the inclined plate inclined direction with first transmission assembly (51) is oppositely arranged.