CN113546548A - Spraying-free engineering material with wide working interval and preparation device - Google Patents

Abstract

The invention discloses a spraying-free engineering material with a wide working interval and a preparation device, and relates to the technical field of spraying-free engineering materials, in particular to a spraying-free engineering material which is composed of the following raw materials in parts by weight: 80 parts of polyformaldehyde, 5 parts of modified pigment, 5 parts of plastic brightening agent and 15 parts of light energy-filled fluorescent powder; the modified pigment is prepared by mixing and extruding a coupling agent and a pigment through an extruder and then heating and drying the mixture; wherein, the pigment is selected from one of carbon black and pearl powder. This exempt from spraying engineering material and preparation facilities with wide working interval sends red orange fluorescence at night through light to fill can drive away the mosquito by the phosphor powder to play the mosquito repellent effect, and have the accurate effect of material consumption when preparing this exempt from spraying engineering material, can strike off the residual material of (mixing) shaft surface adhesion in addition, be favorable to retrieving residual material, improve the productivity, avoid the effect of wasting of resources.

Description

Spraying-free engineering material with wide working interval and preparation device

Technical Field

The invention relates to the technical field of spraying-free engineering coating materials, in particular to a spraying-free engineering material with a wide working interval and a preparation device thereof.

Background

The spraying-free engineering material can obtain the material with specified color texture without spraying paint, is prepared by adding modified pigment into specific resin or plastic and then directly performing injection molding to realize the appearance effect of various colors and textures, has wide application range, relates to building doors and windows, pipelines and electric appliance shells, and has wide working range.

When being applied to building doors and windows, the existing spraying-free engineering material only has appointed color and texture, because the doors and windows have the functions of facilitating people to enter and exit the building and lighting and ventilating, mosquitoes often enter the room through the doors and windows in summer, and the doors and windows made of the spraying-free engineering material do not have the mosquito repelling effect.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a spraying-free engineering material with a wide working interval and a preparation device thereof, and solves the problems that the existing spraying-free engineering material only has specified color and texture when being applied to building doors and windows, and because the doors and windows have the functions of facilitating people to enter and exit buildings and lighting and ventilating, mosquitoes often enter rooms through the doors and windows in summer, and the doors and windows made of the spraying-free engineering material do not have the mosquito repelling effect.

In order to achieve the purpose, the invention is realized by the following technical scheme: the spraying-free engineering material with the wide working interval is prepared from the following raw materials in parts by weight:

80 parts of polyformaldehyde, 5 parts of modified pigment, 5 parts of plastic brightening agent and 15 parts of light energy-filled fluorescent powder;

the modified pigment is prepared by mixing and extruding a coupling agent and a pigment through an extruder and then heating and drying the mixture;

wherein, the pigment is selected from one of carbon black and pearl powder.

A preparation facilities for processing a wide work interval exempts from spraying engineering material, the top of heating hybrid furnace is provided with the longmen frame, and the top of longmen frame is fixed with driving motor, one side of driving motor is connected with the rolling dish, and the surface winding of rolling dish has the chain, the bottom of chain is connected with the bell, the top surface middle part of bell is provided with servo motor, and servo motor's bottom is connected with the (mixing) shaft, the thread groove has been seted up to the top surface of heating hybrid furnace, locking Assembly sets up in the inside of bell, locking Assembly includes master gear, drive gear group, lifting gear and screw post, the both sides of master gear are connected with drive gear group, and the outside of drive gear group is connected with lifting gear, lifting gear's inside is provided with the screw post.

Optionally, the threaded column is in threaded connection with the furnace cover, and a vertical central axis of the threaded column coincides with a vertical central axis of the threaded groove.

Optionally, the right side of heating hybrid furnace is provided with the feeding subassembly, the feeding subassembly includes inlet pipe, anti-adhesion coating, flowmeter and electronic valve, the inner wall of inlet pipe is provided with anti-adhesion coating, and the outer wall bottom of inlet pipe is connected with the flowmeter, the outer end of inlet pipe is connected with the electronic valve.

Optionally, an included angle between the feeding pipe and the heating mixing furnace is 112 °, and the feeding pipe and the flow meter are vertically distributed.

Optionally, the bottom outer wall of (mixing) shaft is fixed with the stirring piece, and the stirring piece all is provided with the heating wire with the inside of (mixing) shaft, the inner wall top of heating and mixing furnace is provided with the defective material processing subassembly, the defective material processing subassembly is including scraping material spare, electric putter, vibrating motor, spring and the material spare that shakes, the top of scraping the material spare is provided with electric putter, and electric putter's bottom is connected with vibrating motor, vibrating motor's bottom is connected with the spring, and the bottom of spring is connected with the material spare that shakes.

Optionally, the stirring piece is cuboid, and the stirring piece is rotationally connected with the servo motor through the stirring shaft.

Optionally, the inner side surface of the scraping part is attached to the outer surfaces of the stirring blade and the stirring shaft, and the outer side surface of the bottom of the scraping part is inclined.

Optionally, the material vibrating part is attached to the outer side surface of the material scraping part through an electric push rod to do telescopic motion, and the material vibrating part is elastically connected with the vibrating motor through a spring.

Optionally, the scraping members are fixedly connected with the heating mixing furnace, and the scraping members are distributed in a parallel shape.

The invention provides a spraying-free engineering material with a wide working interval and a preparation device, and the spraying-free engineering material has the following beneficial effects:

this exempt from spraying engineering material sends orange fluorescence at night through light and can drive away the mosquito through filling ability phosphor powder to play the mosquito repellent effect, and have the accurate effect of material consumption when preparing this exempt from spraying engineering material, can strike off the residual material of (mixing) shaft surface adhesion in addition, be favorable to retrieving residual material, improve the productivity, avoid the effect of wasting of resources.

1. The spraying-free engineering material with the wide working space and the preparation device have the advantages that the light energy-filled fluorescent powder has the function of absorbing light energy and emits fluorescent light for dozens of hours at night, and the fluorescent light is orange, so that doors and windows made of the spraying-free engineering material emit orange fluorescent light, the mosquito repelling effect is realized, mosquitoes can be prevented from entering the room, the indoor life is comfortable, and the mosquito interference is avoided.

2. This exempt from spraying engineering material and preparation facilities with wide work interval, the bell contacts closed back with the heating hybrid furnace, the (mixing) shaft rotates and can drives drive gear group and make elevating gear carry the screw thread post and rotate, and the screw thread post because of with bell threaded connection, the screw thread post carries elevating gear decline and the rank is practised with the thread groove screw thread at the rotation in-process, be favorable to improving the firmness that bell and heating hybrid furnace are connected, avoid the gap to produce, and the screw thread post rises when the (mixing) shaft antiport can make things convenient for the separation of bell and heating hybrid furnace.

3. This spraying engineering material and preparation facilities are exempted from to have wide work interval, the bell realizes opening and shutting of heating hybrid furnace through going up and down, so that putting into of material, and when this exempt from spraying engineering material preparation back bell rose, the (mixing) shaft rises thereupon with the stirring piece and passes scraping a material medial surface, scrape the residual material that the material can strike off (mixing) shaft and stirring piece surface adhesion from the top down this moment, and fall inside the heating hybrid furnace in the gravity influence, this is provided with and does benefit to and prevents that the material adhesion from causing the wasting of resources, and the (mixing) shaft generates heat through its inside heating wire with the stirring piece, make the adhesion can not solidify fast at the residual material on both surfaces, so that the residual material can continue to use after returning to heating hybrid furnace inside.

4. This it exempts from spraying engineering material and preparation facilities to have wide work interval, shake the material piece and take place the vibration and enlarge the vibration sense through the spring because of vibrating motor, rethread electric putter promotes to shake the material piece and pastes in scraping the flexible slip of material piece lateral surface, is favorable to getting rid of the residual material of scraping the adhesion of material piece lateral surface bottom, and the cooperation vibration can effectively make residual material and shake and produce the separation between the material piece to effectively retrieve residual material.

5. This engineering material and preparation facilities are exempted from to spray with wide work interval, inside plastics brightener passes through the inlet pipe and gets into heating mixing furnace, because the inlet pipe is slope setting and the inner wall is provided with anti-adhesion coating, be favorable to preventing that the inside residual plastics brightener of inlet pipe, and can definitely obtain the entering volume of plastics brightener through the flowmeter, and control the electronic valve and close the inlet pipe when arriving the volume of predetermineeing, be favorable to the entering volume of accurate control plastics brightener, improve the accuracy nature when plastics brightener reacts with other raw materials.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the inner structure of the furnace lid of the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the internal structure of the feed tube of the present invention;

FIG. 5 is a perspective view of the scraper of the present invention;

FIG. 6 is a schematic side view of the scraper of the present invention.

In the figure: 1. heating the mixing furnace; 2. a gantry frame; 3. a drive motor; 4. a winding disc; 5. a chain; 6. a furnace cover; 7. a servo motor; 8. a stirring shaft; 9. a thread groove; 10. a locking assembly; 1001. a main gear; 1002. a drive gear set; 1003. a lifting gear; 1004. a threaded post; 11. a feed assembly; 1101. a feed pipe; 1102. an anti-adhesion coating; 1103. a flow meter; 1104. an electronic valve; 12. a stirring sheet; 13. an electric heating wire; 14. a residue processing assembly; 1401. scraping the material; 1402. an electric push rod; 1403. a vibration motor; 1404. a spring; 1405. and the material vibrating piece.

Detailed Description

Referring to fig. 1 to 6, the present invention provides a technical solution: the spraying-free engineering material with a wide working interval consists of the following raw materials in parts by weight:

80 parts of polyformaldehyde, 5 parts of modified pigment, 5 parts of plastic brightening agent and 15 parts of light energy-filled fluorescent powder;

the modified pigment is prepared by mixing and extruding a coupling agent and a pigment through an extruder and then heating and drying the mixture;

wherein, the pigment is selected from one of carbon black and pearl powder.

The preparation device is used for processing a spraying-free engineering material with a wide working interval, a gantry frame 2 is arranged above a heating mixing furnace 1, a driving motor 3 is fixed to the top of the gantry frame 2, one side of the driving motor 3 is connected with a winding disc 4, a chain 5 is wound on the surface of the winding disc 4, a furnace cover 6 is connected to the bottom end of the chain 5, a servo motor 7 is arranged in the middle of the top surface of the furnace cover 6, a stirring shaft 8 is connected to the bottom of the servo motor 7, a thread groove 9 is formed in the top surface of the heating mixing furnace 1, a locking assembly 10 is arranged inside the furnace cover 6, the locking assembly 10 comprises a main gear 1001, a transmission gear set 1002, a lifting gear 1003 and a threaded column 1004, transmission gear sets 1002 are connected to two sides of the main gear 1001, a lifting gear 1003 is connected to the outer sides of the transmission gear sets 1002, and the threaded column 1004 is arranged inside the lifting gear 1003;

the specific operation is that the driving motor 3 drives the winding disc 4 to rotate the winding chain 5, so that the furnace cover 6 is lifted, the top opening of the heating mixing furnace 1 is exposed at the moment, quantitative polyformaldehyde, modified pigment and light-charging fluorescent powder are placed into the heating mixing furnace, then the winding disc 4 rotates reversely, so that the furnace cover 6 descends to seal the top of the heating mixing furnace 1, meanwhile, the servo motor 7 drives the stirring shaft 8 to rotate, meanwhile, the main gear 1001 rotates synchronously with the stirring shaft 8 and carries the lifting gear 1003 to rotate through the transmission gear set 1002, at the same time, the threaded column 1004 descends along with the rotation of the lifting gear 1003 to be in threaded connection with the threaded groove 9, thereby make bell 6 and heating and mixing furnace 1 zonulae occludens together, and servo motor 7 drives the (mixing) shaft 8 antiport after the preparation is accomplished, and the screw post 1004 antiport is separated with thread groove 9 this moment to be convenient for bell 6 and heating and mixing furnace 1 to separate.

As shown in fig. 1 to 3, the threaded column 1004 is in threaded connection with the furnace lid 6, and the vertical central axis of the threaded column 1004 coincides with the vertical central axis of the threaded groove 9;

the threaded column 1004 is in threaded connection with the furnace cover 6, so that the threaded column 1004 keeps vertical when rotating clockwise or anticlockwise to rotate and lift, and the threaded column 1004 can be accurately in threaded connection with the threaded groove 9.

As shown in fig. 1 and 4, a feeding assembly 11 is arranged on the right side of the heating and mixing furnace 1, the feeding assembly 11 comprises a feeding pipe 1101, an anti-adhesion coating 1102, a flow meter 1103 and an electronic valve 1104, the anti-adhesion coating 1102 is arranged on the inner wall of the feeding pipe 1101, the flow meter 1103 is connected to the bottom of the outer wall of the feeding pipe 1101, and the electronic valve 1104 is connected to the outer end of the feeding pipe 1101;

the operation is as follows, after polyformaldehyde, modified pigment and light are filled to be able to the phosphor powder and are stirred evenly, plastics brightener gets into heating mixing furnace 1 through inlet pipe 1101 and reacts, because the setting of anti-blocking coating 1102 makes plastics brightener can't remain inside inlet pipe 1101, simultaneously through the flow meter 1103 statistics plastics brightener's flow, when plastics brightener's flow reaches the default, flow meter 1103 control electrovalve 1104 closes inlet pipe 1101 to be favorable to the weight of accurate control plastics brightener, improve the degree of accuracy that should exempt from the each raw materials reaction of spraying engineering material.

As shown in fig. 1 and 4, an included angle between the feeding pipe 1101 and the heating mixing furnace 1 is 112 °, and the feeding pipe 1101 and the flow meter 1103 are vertically distributed;

an included angle of 112 degrees is formed between the feeding pipe 1101 and the heating mixing furnace 1, so that the feeding pipe 1101 is inclined, the plastic brightening agent can conveniently flow into the heating mixing furnace 1, and the plastic brightening agent is prevented from flowing back or remaining in the feeding pipe 1101.

As shown in fig. 1 and 5-6, a stirring blade 12 is fixed on the outer wall of the bottom of the stirring shaft 8, heating wires 13 are arranged inside the stirring blade 12 and the stirring shaft 8, a residual material processing assembly 14 is arranged on the top of the inner wall of the heating and mixing furnace 1, the residual material processing assembly 14 comprises a material scraping piece 1401, an electric push rod 1402, a vibration motor 1403, a spring 1404 and a material vibrating piece 1405, the electric push rod 1402 is arranged on the top of the material scraping piece 1401, the vibration motor 1403 is connected to the bottom of the electric push rod 1402, the spring 1404 is connected to the bottom of the vibration motor 1403, and the material vibrating piece 1405 is connected to the bottom of the spring 1404;

stirring shaft 8 rotates to drive stirring blade 12 to rotate, so that raw materials are stirred and mixed, the mixing speed between the raw materials is accelerated, stirring blade 12 and stirring shaft 8 ascend after stirring, residual materials are adhered to the surfaces of stirring blade 12 and stirring shaft 8, stirring blade 12 and stirring shaft 8 ascend to penetrate through the inner side surface of scraping piece 1401, scraping piece 1401 is attached to stirring blade 12 and stirring shaft 8 to scrape the residual materials on the surfaces of stirring blade 12 and stirring shaft 8, vibrating piece 1405 is attached to the outer side surface of scraping piece 1401 to slide in a telescopic mode through electric push rod 1402, the residual materials adhered to the bottom of the outer side surface of scraping piece 1401 are removed, vibrating piece 1405 vibrates due to vibration of vibrating motor 1403 and amplifies vibration by spring 1404, separation between the residual materials and vibrating piece 1405 is effectively generated, and the residual materials return to the interior of heating and mixing furnace 1 under the influence of gravity after operation, this be provided with and do benefit to and have residual material, avoid the wasting of resources, heating wire 13 circular telegram is generated heat when stirring piece 12 rises with (mixing) shaft 8 in addition, is favorable to keeping residual material's temperature, avoids residual material to solidify for residual material can mix with other residual materials when falling back heating mixing furnace 1 is inside.

As shown in fig. 1 and 5, the stirring blade 12 is rectangular, the stirring blade 12 is rotatably connected with the servo motor 7 through the stirring shaft 8, the inner side surface of the scraping piece 1401 is attached to the outer surfaces of the stirring blade 12 and the stirring shaft 8, and the outer side surface of the bottom of the scraping piece 1401 is inclined;

the stirring blade 12 is in a rectangular parallelepiped shape and rotates under the driving of the servo motor 7, so that the stirring blade has a stirring function, and meanwhile, the stirring blade 12 is convenient to contact with the inner side surface of the scraping piece 1401, so that the scraping piece 1401 scrapes off residual materials on the surface of the scraping piece 1401.

As shown in fig. 6, the material vibrating member 1405 is attached to the outer side surface of the material scraping member 1401 by the electric push rod 1402 for telescopic movement, and the material vibrating member 1405 is elastically connected with the vibration motor 1403 by the spring 1404, the material scraping member 1401 is fixedly connected with the heating mixing furnace 1, and the material scraping members 1401 are distributed in parallel;

the side of shaking material piece 1405 is with scrape the laminating of material piece 1401 outside and be concertina movement for shake material piece 1405 can scrape the residual material of scraping the adhesion on the material piece 1401 outside, and make through vibrating motor 1403 shake material piece 1405 and take place the vibration, can make again shake the residual material of material piece 1405 surface adhesion and take place the separation under the vibration effect, and can strengthen the sense of vibration through spring 1404, so that strengthen the separation effect, it rises to pass the clearance realization of scraping the residual material of scraping between the material piece 1401 to be parallel distribution in the stirring piece 12 of being convenient for between scraping the material piece 1401 and (mixing) shaft 8.

In conclusion, when the spraying-free engineering material with the wide working interval and the preparation device are used, firstly, quantitative polyformaldehyde, modified pigment, plastic brightening agent and light energy-charging fluorescent powder are taken for preparation, then the winding disc 4 is driven by the driving motor 3 to rotate the winding chain 5, so that the furnace cover 6 is lifted, the opening at the top of the heating mixing furnace 1 is exposed at the moment, quantitative polyformaldehyde, modified pigment and light energy-filled fluorescent powder are put into the furnace, then the winding disc 4 rotates reversely, so that the furnace cover 6 descends to seal the top of the heating mixing furnace 1, meanwhile, the servo motor 7 drives the stirring shaft 8 to rotate clockwise, meanwhile, the main gear 1001 rotates synchronously with the stirring shaft 8 and carries the lifting gear 1003 to rotate through the transmission gear set 1002, and the threaded column 1004 descends along with the rotation of the lifting gear 1003 to be in threaded connection with the threaded groove 9, so that the furnace cover 6 is tightly connected with the heating and mixing furnace 1;

then the heating mixing furnace 1 is heated to 150-;

after all raw materials are uniformly stirred, the plastic brightening agent enters the heating mixing furnace 1 through the feeding pipe 1101 for stirring reaction, the plastic brightening agent cannot remain in the feeding pipe 1101 due to the arrangement of the anti-blocking coating 1102, meanwhile, the flow of the plastic brightening agent is counted through the flow meter 1103, when the flow of the plastic brightening agent reaches a preset value, the flow meter 1103 controls the electronic valve 1104 to close the feeding pipe 1101, so that the component of the plastic brightening agent is accurately controlled, and the accuracy of the spraying-free engineering material during reaction of all raw materials is improved;

the spraying-free engineering material can be obtained after the plastic brightener is uniformly stirred, the spraying-free engineering material can be discharged by opening a valve at the bottom of the heating mixing furnace 1, at the moment, the stirring shaft 8 rotates anticlockwise to separate the threaded column 1004 from the threaded groove 9 so as to lift the furnace cover 6, the furnace cover 6 is lifted to enable the stirring shaft 8 and the stirring sheet 12 to ascend and pass through the inner side surface of the scraping piece 1401, the scraping piece 1401 is attached to the stirring sheet 12 and the surface of the stirring shaft 8 to scrape residual materials on the surfaces of the stirring sheet 12 and the stirring shaft 8, the vibrating piece 1405 is pushed by the electric push rod 1402 to be attached to the outer side surface of the scraping piece 1401 to slide in a telescopic manner, the residual materials adhered to the bottom of the outer side surface of the scraping piece 1401 are favorably removed, the vibrating piece 1405 vibrates due to the vibration of the vibrating motor 1403 and amplifies the vibration by the spring 1404, the residual materials are effectively separated from the vibrating piece 1405, and the residual materials return to the inside of the heating mixing furnace 1 under the influence of gravity after the operation, the arrangement is beneficial to residual materials, and resource waste is avoided;

finally, the heating wire 13 is electrified to generate heat when the stirring sheet 12 and the stirring shaft 8 rise, which is beneficial to keeping the temperature of the residual material and avoiding the solidification of the residual material, so that the residual material can be mixed with the rest materials when falling back to the interior of the heating mixing furnace 1.

Claims (10)

1. The utility model provides a exempt from to spray engineering material with wide operating region which characterized in that: the spraying-free engineering material is composed of the following raw materials in parts by weight:

80 parts of polyformaldehyde, 5 parts of modified pigment, 5 parts of plastic brightening agent and 15 parts of light energy-filled fluorescent powder;

the modified pigment is prepared by mixing and extruding a coupling agent and a pigment through an extruder and then heating and drying the mixture;

wherein, the pigment is selected from one of carbon black and pearl powder.

2. The preparation device for processing the spraying-free engineering material with the wide working interval in the claim 1 is characterized in that: a gantry frame (2) is arranged above the heating mixing furnace (1), a driving motor (3) is fixed at the top of the gantry frame (2), a winding disc (4) is connected to one side of the driving motor (3), a chain (5) is wound on the surface of the winding disc (4), a furnace cover (6) is connected to the bottom end of the chain (5), a servo motor (7) is arranged in the middle of the top surface of the furnace cover (6), a stirring shaft (8) is connected to the bottom of the servo motor (7), a thread groove (9) is formed in the top surface of the heating mixing furnace (1), a locking assembly (10) is arranged inside the furnace cover (6), the locking assembly (10) comprises a main gear (1001), a transmission gear set (1002), a lifting gear (1003) and a thread column (1004), and transmission gear sets (1002) are connected to two sides of the main gear (1001), and the outer side of the transmission gear set (1002) is connected with a lifting gear (1003), and a threaded column (1004) is arranged inside the lifting gear (1003).

3. The preparation device of the free-spraying engineering material with the wide working interval, according to claim 2, is characterized in that: the threaded column (1004) is in threaded connection with the furnace cover (6), and the vertical central axis of the threaded column (1004) coincides with the vertical central axis of the threaded groove (9).

4. The preparation device of the free-spraying engineering material with the wide working interval, according to claim 2, is characterized in that: the right side of heating hybrid furnace (1) is provided with feeding subassembly (11), feeding subassembly (11) are including inlet pipe (1101), anti-adhesion coating (1102), flowmeter (1103) and electronic valve (1104), the inner wall of inlet pipe (1101) is provided with anti-adhesion coating (1102), and is connected with flowmeter (1103) bottom the outer wall of inlet pipe (1101), the outer end of inlet pipe (1101) is connected with electronic valve (1104).

5. The preparation device of the spraying-free engineering material with the wide working interval, which is disclosed by claim 4, is characterized in that: the included angle between the feeding pipe (1101) and the heating mixing furnace (1) is 112 degrees, and the feeding pipe (1101) and the flow meter (1103) are vertically distributed.

6. The preparation device of the free-spraying engineering material with the wide working interval, according to claim 2, is characterized in that: the bottom outer wall of (mixing) shaft (8) is fixed with stirring piece (12), and the inside of stirring piece (12) and (mixing) shaft (8) all is provided with heating wire (13), the inner wall top of heating mixing furnace (1) is provided with clout processing assembly (14), clout processing assembly (14) is including scraping material (1401), electric putter (1402), vibrating motor (1403), spring (1404) and shaking material (1405), the top of scraping material (1401) is provided with electric putter (1402), and the bottom of electric putter (1402) is connected with vibrating motor (1403), the bottom of vibrating motor (1403) is connected with spring (1404), and the bottom of spring (1404) is connected with shakes material (1405).

7. The preparation device of the spraying-free engineering material with the wide working interval, which is disclosed by claim 6, is characterized in that: the stirring pieces (12) are cuboid, and the stirring pieces (12) are in rotating connection with the servo motor (7) through the stirring shaft (8).

8. The preparation device of the spraying-free engineering material with the wide working interval, which is disclosed by claim 6, is characterized in that: the inner side surface of the scraping piece (1401) is attached to the outer surfaces of the stirring blades (12) and the stirring shaft (8), and the outer side surface of the bottom of the scraping piece (1401) is inclined.

9. The preparation device of the spraying-free engineering material with the wide working interval, which is disclosed by claim 6, is characterized in that: the material vibrating piece (1405) is attached to the outer side surface of the material scraping piece (1401) through an electric push rod (1402) to do telescopic motion, and the material vibrating piece (1405) is elastically connected with the vibration motor (1403) through a spring (1404).

10. The preparation device of the spraying-free engineering material with the wide working interval, which is disclosed by claim 6, is characterized in that: the material scraping pieces (1401) are fixedly connected with the heating mixing furnace (1), and the material scraping pieces (1401) are distributed in a parallel shape.

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