CN207533197U - Highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device - Google Patents

Abstract

The utility model is related to highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing devices, including material transfer part, material transfer part includes the feeding device a of downward transfer oil resin, the material transfer device that the feeding device b of conveying modified rosin resin, the downward feeding device c for conveying powder and the materials quantitative of control feeding device a, feeding device b and feeding device c convey backward downwards；Dispensing part, it is arranged below material transfer part, which includes the ingredient sector mixed after being bonded for the Petropols and a modified rosin resin for carrying out the conveying of material transfer device with the quantitative powder that the conveying of material transfer device comes；Output par, c is packaged, is arranged below ingredient sector, which is used to export after the mixing material packing for completing dispensing in ingredient sector；The utility model overcomes coating and matched when high-volume mixes uneven, and the problem of being susceptible to layering is packaged after mixing.

Description

Highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device

Technical field

The utility model is related to lines on road surface coating mixing equipment technical field more particularly to highlighted grade heat molten type are reflective Coating large size matches mixture manufacturing device.

Background technology

Lines on road surface is an important process in road construction later stage, and needs to use during lines on road surface a large amount of Coating, existing lines on road surface coating are typically all to complete proportioning mixing on large scale equipment in advance, are mixed in proportioning There is the problem of proportioning unevenness, undercompounding in journey.

China authorizes a utility model patent of Publication No. CN1380365A, and it discloses a kind of method for producing coating And equipment, the part paint vehicle in formula is first mixed with a certain kind material in vacuum emulsification kettle with the condition of setting, then Separated in time is mixed successively with other material, reduces antifoaming agent use, eliminates the negative effect of excessive antifoaming agent, Improving quality reduces consumption；

But in actual use, the equipment have that chaotic efficiency is low and mixing after the material that is packaged easily go out Existing delamination, the material of each region different material are unevenly distributed, the quality of coating when influencing subsequently to use.

Utility model content

The purpose of this utility model is in view of the deficiencies of the prior art, by being set below multigroup passage side by side Glove material transfer device, and one of material is heated by the heating member of setting during transfer Complete proportioning while two material be bonded together so that overcome coating carry out high-volume mix when match it is uneven, after mixing Packing is susceptible to the problem of layering.

For above-mentioned technical problem, the technical solution adopted in the utility model is as follows：

Highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device, it is characterised in that：Including

Material transfer part, the material transfer part include the feeding device a for downward transfer oil resin, are used for Downwards the feeding device b of conveying modified rosin resin, for the feeding device c that conveys powder downwards and for controlling feed dress Put the material transfer device that the materials quantitative of a, feeding device b and feeding device c convey backward；

Dispensing part, the dispensing part are arranged on the lower section of material transfer part, which is included for by object The Petropols and a modified rosin resin that material transfer device conveying comes convey after being bonded with material transfer device The ingredient sector that the quantitative powder come is mixed；And

Output par, c, the lower section for being packaged output par, c and being arranged on ingredient sector are packaged, which is used for It will be exported after the mixing material packing that dispensing is completed in ingredient sector.

As a preferred embodiment, the feeding device a includes feed bin a and is arranged on feed bin a lower ends and along the length of feed bin a Several passage a of direction setting；

If the feeding device b include feed bin b and be arranged on feed bin b lower ends and along feed bin b length direction set Dry passage b, the passage b includes the first guide section and the second guide section, the first guide section and the second guide section Between form partition channel a；

If the feeding device c include feed bin c and be arranged on feed bin c lower ends and along feed bin c length direction set Dry passage c.

As a preferred embodiment, the material transfer device includes driving device, support plate and the drive in driving device Under the sliding panel that slidably reciprocates along the upper surface of passage a, the lower port of passage b and passage c and support plate.

As a preferred embodiment, the ingredient sector include mixer, be arranged on mixer lower port buffer unit and The receiving hopper being arranged below buffer unit, one end of the mixer connect inside support plate, the other end and receiving hopper It is logical.

As a preferred embodiment, several packing for being packaged output par, c and including conveyor and being arranged in conveyor Bag.

As a preferred embodiment, the driving device includes stent, the horizontal sliding cylinder being arranged on stent, the horizontal sliding cylinder Telescopic rod end be fixedly connected with one end of sliding panel；

The dosing hole through sliding panel is offered on the sliding panel, the side of the dosing hole is set in sliding panel upper surface Heating member is equipped with, the side of the heating member offers the first guide groove, and the side of first guide groove offers and the first guide groove Second guide groove of connection, the side of second guide groove offer the powder slot through sliding panel,

Spacing between the passage a and passage b is d1, and the spacing between the passage b and passage c is D2, the spacing between the dosing hole and powder slot are d3, and d1, d2 and d3 meet, d1=d2=d3.

As a preferred embodiment, the partition board a to slidably reciprocate along partition channel a is additionally provided with above the sliding panel, therewith Corresponding that the first driving lever and the second driving lever are provided in the side of the sliding panel, the partition board a is in the first driving lever and second group The folding of the first guide section lower port is controlled under the drive of bar,

The end of the passage c slidably reciprocates along second guide groove,

The side that partition board b, the partition board b are provided in first guide groove is provided with supporting block, and the sliding panel is back and forth When mobile, partition board b is slidably reciprocated control second by supporting block under the action of passage c and passage a along the first guide groove The folding of guide section lower port.

As a preferred embodiment, the buffer unit includes the buffer board for being rotatably provided in mixer lower port, the buffering Plate is symmetrically set with two, and the tail end of the buffer board is additionally provided with spring, and the spring one end is fixed on buffer board One end is fixed on receiving hopper.

As a preferred embodiment, being provided with cooling device on the outside of the mixer, the cooling device includes mounting bracket, consolidates The coolant jacket being scheduled on mounting bracket, the inside of the coolant jacket offer coolant flow channel, the arrival end of the coolant flow channel with into Water pipe connects, and the port of export is connected with outlet pipe.

As a preferred embodiment, the upper surface of the second guide section is provided with loading plate, the partition board a is slided along loading plate Dynamic, the loading plate is fixedly connected with the second guide section, and one side end is fixedly connected with the first guide section.

As another preferably, the length of the first partition is d4, and the length of the second partition is d5, d5=2d4.

The beneficial effects of the utility model：

(1) by setting material transfer device below multigroup passage arranged side by side in the utility model, and in object Expect setting dosing hole and powder slot on the sliding panel of transfer device and edge partition channel a is set to slide back and forth in the top of sliding panel Dynamic partition board a so that carry out quantitatively completing proportioning, and in the mistake of transfer to transfer at one to the material in each feeding device Heating carried out to one of material by the heating member of setting in journey it made to be bonded together with another material to be mixed again with powder It closes, has achieved the effect that be uniformly mixed, be not in the situation that certain more material of certain material are few at one in the mixture being subsequently packaged.

(2) by opening up the first guide groove and the second guide groove on sliding panel in the utility model, and partition board b is set so that Sliding panel partition board b in certain handling material back and forth can slidably reciprocate control under the action of passage c and passage a along the first guide groove Make the folding of the second guide section lower port, it is therefore prevented that when powder slot is moved to the second guide section lower port, in the second guide section Material falls into powder slot the proportioning for influencing material.

In conclusion the equipment has material proportion uniform, production efficiency is high, mixes the advantages of abundant, is particularly suitable for The high-volume dispensing mixing equipment and technology of lines on road surface coating.

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 is the structure diagram of highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device.

Fig. 2 is the cut-away illustration of highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device.

Structure diagram when Fig. 3 is dosing hole and the second guide section and mixer connection.

Fig. 4 is the structure diagram of material transfer part.

Fig. 5 is the structure diagram of material transfer device.

Fig. 6 is the structure diagram of ingredient sector.

Fig. 7 is the cutting close-up schematic view of highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device.

Fig. 8 is the structure diagram of buffer unit.

Specific embodiment

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

Fig. 1 is the structure diagram of highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device, and Fig. 2 is highlighted grade Heat molten type reflecting coating large size matches the cut-away illustration of mixture manufacturing device, and Fig. 3 is dosing hole and the second guide section and matches Structure diagram when charging basket connects, Fig. 4 are the structure diagram of material transfer part, and Fig. 5 is the structure of material transfer device Schematic diagram, Fig. 6 are the structure diagram of ingredient sector, and Fig. 7 is that highlighted grade heat molten type reflecting coating large size matches mixture manufacturing dress The cutting close-up schematic view put, Fig. 8 are the structure diagram of buffer unit.

Embodiment one

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7 and Fig. 8, it is mixed to highlight grade heat molten type reflecting coating large size proportioning Process units is closed, including material transfer part 1, the material transfer part 1 includes the feed for downward transfer oil resin Device a11, for convey modified rosin resin downwards feeding device b12, for convey the feeding device c13 of powder downwards with And the material transfer for the materials quantitative of feeding device a11, feeding device b12 and feeding device c13 to be controlled to convey backward Structure 14, the feeding device a11, feeding device b12 and feeding device c13 are arranged side by side along longitudinal direction several；

Dispensing part 2, the dispensing part 2 are arranged on the lower section of material transfer part 1, which includes being used for By material transfer device 14 convey come a Petropols and a modified rosin resin bonded after with material transfer The ingredient sector 21 that the quantitative powder that the conveying of structure 14 comes is mixed；And

It is packaged output par, c 3, the lower section for being packaged output par, c 3 and being arranged on ingredient sector 21, the packing output par, c 3 For will be exported after the mixing material packing that dispensing is completed in ingredient sector 21.

By setting material transfer device 14 below multigroup passage arranged side by side, and in material transfer device 14 Dosing hole 1431 and powder slot 1436 on sliding panel 143 are set and set in the top of sliding panel 143 along partition channel a1223 The partition board a4 to slidably reciprocate so that the material in each feeding device is carried out quantitatively to complete to match to transfer at one, and Carrying out heating to one of material by the heating member of setting 1437 during transfer makes it be adhered to one with another material Rise and mixed again with powder, achieved the effect that be uniformly mixed, be not in the mixture being subsequently packaged at one certain material it is more certain Kind expects few situation.

Further, as shown in Fig. 2, the feeding device a11 includes feed bin a111 and is arranged on feed bin a111 lower ends And several passage a112 of the length direction setting along feed bin a111；

The feeding device b12 includes feed bin b121 and is arranged on feed bin b121 lower ends and along the length side of feed bin b121 Include the first guide section 1221 and the second guide section 1222, institute to several passage b122, the passage b122 of setting It states and partition channel a1223 is formed between the first guide section 1221 and the second guide section 1222；

The feeding device c13 includes feed bin c131 and is arranged on feed bin c131 lower ends and along the length side of feed bin c131 To several passage c132 of setting.

Further, as shown in figure 3, the material transfer device 14 include driving device 141, support plate 142 and Along the lower port and support plate of passage a112, passage b122 and passage c132 under the drive of driving device 141 The sliding panel 143 that 142 upper surface slidably reciprocates.

Further, the ingredient sector 21 includes mixer 211, the buffer unit for being arranged on 211 lower port of mixer 212 and the receiving hopper 213 of the lower section of buffer unit 212 is arranged on, one end of the mixer 211 is another through support plate 142 One end is connected with 213 inside of receiving hopper.

Further, several packing for being packaged output par, c 3 and including conveyor 31 and being arranged in conveyor 31 Bag 32.

Further, the driving device 141 includes stent 1411, the horizontal sliding cylinder 1412 being arranged on stent 1411, The telescopic rod end of the horizontal sliding cylinder 1412 is fixedly connected with one end of sliding panel 143；

The dosing hole 1431 through sliding panel 143 is offered on the sliding panel 143, the side of the dosing hole 1431 exists 143 upper surface of sliding panel is provided with heating member 1437, and the side of the heating member 1437 offers the first guide groove 1432, and described The side of one guide groove 1432 offers the second guide groove 1433 connected with the first guide groove 1432, the side of second guide groove 1433 The powder slot 1436 through sliding panel 143 is offered,

Spacing between the passage a112 and passage b122 for d1, the passage b122 and passage c132 it Between spacing for d2, the spacing between the dosing hole 1431 and powder slot 1436 is d3, and d1, d2 and d3 meet, d1=d2= d3。

Further, as shown in fig. 7, the top of the sliding panel 143 be additionally provided with along partition channel a1223 slidably reciprocate Partition board a4, it is corresponding to be provided with the first driving lever 1434 and the second driving lever 1435 in the side of the sliding panel 143, it is described Partition board a4 controls the folding of 1221 lower port of the first guide section under the drive of the first driving lever 1434 and the second driving lever 1435,

The end of the passage c132 slidably reciprocates along second guide groove 1433,

The side that partition board b5, the partition board b5 are provided in first guide groove 1432 is provided with supporting block 51, the cunning When movable plate 143 moves back and forth, partition board b5 by supporting block 51 under the action of passage c132 and passage a112 along first Guide groove 1432, which slidably reciprocates, controls the folding of 1222 lower port of the second guide section.

It is noted that by opening up the first guide groove 1432 and the second guide groove 1433 on sliding panel 143, and set every Plate b5 so that sliding panel 143 is in certain handling material back and forth under the action of partition board b5 energy passage c132 and passage a112 As sliding panel 143 controls the folding of 1222 lower port of the second guide section back and forth, it is therefore prevented that powder slot is moved to the second guide section During 1222 lower port, the material in the second guide section 1222 falls into powder slot 1436 proportioning for influencing material.

Further, the upper surface of the second guide section 1222 is provided with loading plate 7, and the partition board a4 is along loading plate 7 It slides, the loading plate 7 is fixedly connected with the second guide section 1222, and one side end is fixedly connected with the first guide section 1221.

Further, the length of the first partition 2122 is d4, and the length of the second partition 2123 is d5, d5= 2d4。

Embodiment two

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7 and Fig. 8, wherein identical with embodiment one or corresponding portion Part uses and one corresponding reference numeral of embodiment, for simplicity, hereafter only description and the distinctive points of embodiment one.The implementation Example two and embodiment one the difference lies in：The buffer unit 212 includes being rotatably provided in 211 lower port of mixer Buffer board 2121, the buffer board 2121 are symmetrically set with two, and the tail end of the buffer board 2121 is additionally provided with spring 2122, described 2122 one end of spring is fixed on one end on buffer board 2121 and is fixed on receiving hopper 213.

Further, the outside of the mixer 211 is provided with cooling device 6, and the cooling device 6 includes mounting bracket 61st, the coolant jacket 62 being fixed on mounting bracket 61, the inside of the coolant jacket 62 offer coolant flow channel 63, the coolant flow channel 63 arrival end is connected with water inlet pipe 64, and the port of export is connected with outlet pipe 65.

By setting buffer unit 212 that can slow down the speed that hybrid resin is fallen from mixer 211 so that be bonded in one The Petropols and modified rosin resin risen can obtain being fully cooled for cooling device 6 and ensure that it is coagulated together jail before packing Gu.

The course of work：Feed bin a111, feed bin b121 and feed bin c131 transfer oil resin, modified rosin resin separately down And powder, horizontal sliding cylinder 1412 drive sliding panel 143 to be slided along support plate 142, when dosing hole 1431 and passage a112 connect When logical, Petropols are fallen into through passage a112 in dosing hole 1431；

Then, horizontal sliding cylinder 1412 drive sliding panel 143 move backward, in moving process the second driving lever 1435 drive every Plate a4 is slided along loading plate 7, and the partition board b5 in the first guide groove 1432 is moved together also with sliding panel 143 in addition, moving process When middle heating member 1437 is moved to the lower port of the second guide section 1222, partition board b5 is completely from the lower end of the second guide section 1222 Mouth is removed, and heating member 1437 heats the modified rosin resin in the second guide section 1222, continues to move to, works as dosing hole 1431 when being moved at mixer 211, and partition board a4 just blocks the lower port of the first guide section 1221, at this time dosing hole 1431 with Second guide section 1222 is connected with mixer 211, the modification in Petropols and the second guide section 1222 in dosing hole 1431 Rosin resin converges and is bonded together to fall along mixer 211；

At this point, powder slot 1436 is connected with passage c132, powder fills up powder slot 1436, and horizontal sliding cylinder 1412 drives Sliding panel 143 commutates movement again, when powder slot 1436, which is moved to, to be connected with mixer 211, partition board b5 with sliding panel 143 again The secondary lower port for being moved to the second guide section 1222 prevents from falling on powder slot 1436 under the material in the second guide section 1222, and partition board A4 is removed under the effect of the first driving lever 1434 from the lower port of the first guide section 1221, powder also along mixer 211 fall with Hybrid resin mixes, and mixture is fallen into receiving hopper 213, and material is fallen into complete in the packing bag 32 in conveyor 31 in receiving hopper 213 Into dispensing and export.

In the description of the present invention, it is to be appreciated that the orientation or position of the instructions such as term " front and rear ", " left and right " Relationship is based on orientation shown in the drawings or position relationship, is for only for ease of description the utility model and simplifies description, without It is instruction or implies that signified equipment or component there must be specific orientation, with specific azimuth configuration and operation, therefore not It is understood that as the limitation to utility model.

Certainly in the technical program, those skilled in the art is it should be understood that term " one " is interpreted as " at least One " or " one or more ", i.e., in one embodiment, the quantity of an element can be one, and in other implementation In example, the quantity of the element can be multiple, and term " one " is it is not intended that limitation to quantity.

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, it should be covered within the scope of the utility model.Therefore, the scope of protection of the utility model should be with right Subject to the protection domain of claim.

Claims (10)

1. highlighted grade of heat molten type reflecting coating large size proportioning mixture manufacturing device, it is characterised in that：Including

Material transfer part (1), feeding device a of the material transfer part (1) including being used for downward transfer oil resin (11), the feeding device b (12) for conveying modified rosin resin downwards, the feeding device c (13) for conveying powder downwards And the object for the materials quantitative of feeding device a (11), feeding device b (12) and feeding device c (13) to be controlled to convey backward Expect transfer device (14)；

Dispensing part (2), the dispensing part (2) are arranged on the lower section of material transfer part (1), which includes For by material transfer device (14) conveying come Petropols and modified rosin resin bonded after with material transfer device (14) ingredient sector (21) that the quantitative powder that conveying comes is mixed；And

It is packaged output par, c (3), the lower section for being packaged output par, c (3) and being arranged on ingredient sector (21), the packing output section Divide (3) for that will be exported after the interior mixing material packing for completing dispensing of ingredient sector (21).

2. highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device according to claim 1, which is characterized in that The feeding device a (11) is including feed bin a (111) and is arranged on feed bin a (111) lower ends and along the length side of feed bin a (111) To several passage a (112) of setting；

The feeding device b (12) is including feed bin b (121) and is arranged on feed bin b (121) lower ends and along the length of feed bin b (121) Several passage b (122) of direction setting are spent, the passage b (122) includes the first guide section (1221) and the second guide Section (1222) forms partition channel a (1223) between the first guide section (1221) and the second guide section (1222)；

The feeding device c (13) is including feed bin c (131) and is arranged on feed bin c (131) lower ends and along the length of feed bin c (131) Spend several passage c (132) of direction setting.

3. highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device according to claim 1, which is characterized in that The material transfer device (14) is including driving device (141), support plate (142) and under the drive of driving device (141) Along the upper surface of passage a (112), the lower port of passage b (122) and passage c (132) and support plate (142) The sliding panel (143) to slidably reciprocate.

4. highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device according to claim 3, which is characterized in that The ingredient sector (21) including mixer (211), be arranged on the buffer unit (212) of mixer (211) lower port and set The receiving hopper (213) below buffer unit (212) is put, one end of the mixer (211) is another through support plate (142) It is connected inside one end and receiving hopper (213).

5. highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device according to claim 1, which is characterized in that The packing output par, c (3) includes conveyor (31) and several packing bags (32) being arranged in conveyor (31).

6. highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device according to claim 4, which is characterized in that The driving device (141) includes stent (1411), the horizontal sliding cylinder (1412) being arranged on stent (1411), the flat-pushing gas The telescopic rod end of cylinder (1412) is fixedly connected with one end of sliding panel (143)；

Offer the dosing hole (1431) through sliding panel (143) on the sliding panel (143), the one of the dosing hole (1431) Side is provided with heating member (1437) in sliding panel (143) upper surface, and the side of the heating member (1437) offers the first guide groove (1432), the side of first guide groove (1432) offers the second guide groove (1433) connected with the first guide groove (1432), institute The side for stating the second guide groove (1433) offers powder slot (1436) through sliding panel (143),

Spacing between the passage a (112) and passage b (122) is d1, the passage b (122) and passage c (132) spacing between is d2, and the spacing between the dosing hole (1431) and powder slot (1436) is d3, and d1, d2 and d3 expire Foot, d1=d2=d3.

7. highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device according to claim 6, which is characterized in that Be additionally provided with above the sliding panel (143) along partition channel a (1223) the partition board a (4) that slidably reciprocates, it is corresponding The side of the sliding panel (143) is provided with the first driving lever (1434) and the second driving lever (1435), and the partition board a (4) is first The folding of first guide section (1221) lower port is controlled under the drive of driving lever (1434) and the second driving lever (1435),

The end of the passage c (132) slidably reciprocates along second guide groove (1433),

Partition board b (5) is provided in first guide groove (1432), the side of the partition board b (5) is provided with supporting block (51), institute When stating sliding panel (143) and moving back and forth, partition board b (5) is by supporting block (51) in passage c (132) and passage a (112) Under the action of along the first guide groove (1432) slidably reciprocate control second guide section (1222) lower port folding.

8. highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device according to claim 7, which is characterized in that Buffer board (2121) of the buffer unit (212) including being rotatably provided in mixer (211) lower port, the buffer board (2121) two are symmetrically set with, the tail end of the buffer board (2121) is additionally provided with spring (2122), the spring (2122) one end is fixed on one end on buffer board (2121) and is fixed on receiving hopper (213).

9. highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device according to claim 7, which is characterized in that Be provided with cooling device (6) on the outside of the mixer (211), the cooling device (6) including mounting bracket (61), be fixed on peace The coolant jacket (62) on (61) is shelved, the inside of the coolant jacket (62) offers coolant flow channel (63), the coolant flow channel (63) arrival end is connected with water inlet pipe (64), and the port of export is connected with outlet pipe (65).

10. highlighted grade heat molten type reflecting coating large size proportioning mixture manufacturing device according to claim 7, feature exist In the upper surface of the second guide section (1222) is provided with loading plate (7), and the partition board a (4) is slided along loading plate (7), institute It states loading plate (7) to be fixedly connected with the second guide section (1222), one side end is fixedly connected with the first guide section (1221).