CN211706677U - Based on feed proportioning system for architectural coatings production - Google Patents

Abstract

The utility model discloses a batching system for producing building coatings, wherein the four sides of the top surface of a box cover are respectively provided with a feeding pipe, the top ends of four feeding pipes are respectively provided with a feeding hopper, two side parts of the inner side of the feeding hopper are respectively and movably connected with a movable rotating plate, the movable rotating plate is rotatably connected with the inner wall of the feeding hopper through a connecting rotating shaft, two sides of the top part of the movable rotating plate are respectively provided with a fixed seat, one side of each fixed seat is fixedly connected with a bearing spring, and the other end of the bearing spring is fixedly connected with the inner wall of the feeding hopper, the utility model can preliminarily collect coating raw materials which are added into the corresponding feeding hopper through the movable rotating plate, the connecting rotating shaft, the fixed seats and the bearing springs, then add the collected certain amount of the coating raw materials into a batching box, thereby preventing the amount of the, the traditional batching mode is replaced, and the batching convenience is improved.

Description

Based on feed proportioning system for architectural coatings production

Technical Field

The utility model relates to an architectural coatings production technical field specifically is a based on ingredient system is used in architectural coatings production.

Background

The paint coated on buildings, decorative buildings or protective buildings, which is collectively called as building paint, is a paint product mainly used for house decoration, the market development of which is closely related to the development of real estate industry, meanwhile, the building paint has the functions of decoration, protection and improvement of habitability, and is divided into wall paint, waterproof paint, floor paint and functional building paint, and in the actual production process of the building paint, the building paint is generally required to be blended by blending equipment so that various paint raw materials can be conveniently and intensively mixed, for example, Chinese patent discloses a blending device system for producing silicon modified high molecular building waterproof paint, the publication number of which is (CN 207838914U), the patent has the function of automatic metering by an installed weighing sensor, and can realize the accuracy of the input raw materials, the scientificity is stronger than that of the traditional manual metering;

the existing batching equipment is generally used for weighing the coating raw materials through a weighing instrument and the like during actual batching, and then the coating raw materials are fed in, so that the batching cost is increased, the preparation of the coating raw materials is caused to be very troublesome, and meanwhile, the cleaning component is lacked, so that the coating raw materials cannot be cleaned up the residual materials of the mixed materials after the preparation, and further the next batching of the batching device is easily influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a based on dispensing system is used in architectural coatings production, can effectively solve current dispensing equipment that proposes in the above-mentioned background art because when actual batching, generally weigh the coating raw materials through weighing instrument etc. then reinforced again to this configuration that leads to the coating raw materials becomes very troublesome, lack the subassembly of clearance simultaneously, lead to the coating raw materials after the configuration, can't clear up the residual material of miscellanies, and then cause the problem of influence to dispensing device's next time batching easily.

In order to achieve the above object, the utility model provides a following technical scheme: a batching system for producing building coatings comprises a batching box, wherein fixed pillars are arranged at four corners of the bottom end of the batching box, a box cover is arranged at the top end of the batching box, a motor is fixedly arranged at the middle end of the top of the box cover, a rotating shaft is rotatably connected to the position, located inside the batching box, of the bottom of the motor, mixing blades are fixedly connected to two side portions of the rotating shaft, feeding assemblies are arranged at four side positions of the top surface of the box cover, located on the motor, and each feeding assembly comprises a feeding pipe, a feeding hopper, a movable rotating plate, a connecting rotating shaft, a fixed seat and a pressure;

the automatic cleaning device comprises a box cover, a movable rotating plate, a cleaning assembly, a cleaning scraper blade, a guide slider, a manual telescopic push rod, a mounting sleeve plate, a sewage discharge groove, a sealing clamping groove and a sealing inserting plate, wherein the four sides of the top surface of the box cover are provided with feed hoppers, the two sides of the top ends of the four feed pipes are movably connected with the movable rotating plate, the movable rotating plate is rotatably connected with the inner wall of the feed hopper through a connecting rotating shaft, the two sides of the top of the movable rotating plate are provided with fixing seats, one side of each fixing seat is fixedly connected with a pressure-bearing spring, the other end of each pressure-bearing spring is fixedly connected with the inner;

the automatic cleaning device is characterized in that two side ends of the bottom of the inner side of the batching box are respectively provided with a guide sliding chute, one side part of the batching box is movably connected with a manual telescopic push rod, one end of the manual telescopic push rod is positioned in the batching box and is connected with a cleaning scraper, the side ends of two sides of the cleaning scraper and the corresponding position of the guide sliding chute are respectively connected with a guide slider, the other side part of the batching box and the corresponding position of the manual telescopic push rod are fixedly connected with an installation sleeve plate, a sewage discharging groove is formed in the installation sleeve plate and is communicated with the batching box, a sealing clamping groove is formed in the upper position of the inner side of the installation sleeve plate, and a sealing inserting;

the feed trough has been seted up to batching incasement portion middle-end, batching incasement portion corresponds position department fixedly connected with discharging channel with the feed trough, discharging channel has inside seted up the ejection of compact and has led to the groove.

Preferably, a screening assembly is arranged in the discharging channel and comprises a movable pulling plate, a connecting clamping groove, a connecting clamping block, a filtering screen and a sorting outlet;

the inside one side slant swing joint of discharging channel has the activity arm-tie, the inside both sides of ejection of compact logical groove all have seted up connecting groove with activity arm-tie correspondence position department, the activity arm-tie is connected through the joint between the connecting fixture block of its both sides limit end and the connecting groove, the fixed bonding of the inside embedding of activity arm-tie has filter screen, the sorting outlet has been seted up on a discharging channel limit portion.

Preferably, flexible rubber sheets are bonded to the inner side edges of the movable rotating plates, and rubber scraping sheets are bonded to the bottoms and the surfaces of the two sides of the dirt cleaning scraping plates.

Preferably, the installation angle of the movable pulling plate is thirty degrees, the sorting outlet is arranged at the lower part of the movable pulling plate, and the sorting outlet is connected with the movable pulling plate.

Preferably, the bottom end of the discharge channel is fixedly connected with a material receiving assembly, and the material receiving assembly comprises a mounting plate, a containing groove, a pull groove, a material receiving box, a pull sliding groove, a movable sliding block and a storage chamber;

the utility model discloses a storage tank, including discharging channel, mounting panel, draw-groove, storage tank, movable slider and storage tank, the discharging channel bottom is connected with the mounting panel, the inside storage tank of having seted up of mounting panel, the draw-groove has been seted up to mounting panel one side limit portion, the inside embedding of draw-groove is connected with and connects the workbin, the pull spout has all been seted up to storage tank both sides limit end, it all is connected through the pull between movable.

Preferably, the top of the mounting plate is communicated with the discharging channel.

Preferably, the inner diameter of the drawing sliding groove is larger than the outer diameter of the movable sliding block, and lubricating grease is arranged at the joint of the drawing sliding groove and the movable sliding block.

Preferably, an adjusting assembly is arranged at one side, close to the mounting plate, of the bottom of the discharging channel, and the adjusting assembly comprises a sealing connecting groove, an adjusting pull plate, a sealing rubber strip and a handle;

sealed spread groove has all been seted up to each limit portion of ejection of compact logical groove bottom, the inside embedding of sealed spread groove is agreed with and is connected with the regulation arm-tie, it has joint strip to adjust all to be located sealed spread groove internal position department in arm-tie both sides limit end, it is connected with the handle to adjust arm-tie outside limit end.

Preferably, a fastening clamping groove is formed in the joint of the inner side edge end of the sealing connecting groove and the sealing rubber strip, and the sealing rubber strip is embedded in the fastening clamping groove.

Preferably, the outer side end of the adjusting pulling plate is provided with a cover plate, the handle is installed on the surface of the cover plate, and the inner side end of the cover plate is bonded with a sealing piece.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization:

1. can carry out preliminary collection with adding the inside coating raw materials that corresponds the feeder hopper through activity commentaries on classics board, connection pivot, fixing base and pressure-bearing spring, then will collect a certain amount of material raw materials and add the batching incasement to this makes the inside volume of adding coating raw materials of four feeder hoppers can not produce too big difference, has replaced traditional batching mode, has improved the convenience of batching.

2. Can strike off the inside remaining mixture of batching box after the batching through direction spout, the scraper blade of decontaminating, direction slider, manual flexible push rod, installation lagging, blowdown groove, sealed draw-in groove and sealed picture peg, and then avoid the mixture to pile up in the inside formation of batching box, lead to leading to the next time batching to the batching box and cause the influence, avoided the waste of coating raw materials simultaneously, reduced the degree of difficulty of artifical clearance.

3. Can sieve the coating raw materials after mixing through activity arm-tie, connecting groove, connection fixture block, filter screen and separation outlet, and then the deposit that produces when avoiding the inside mixture of coating raw materials directly discharges, leads to causing the influence to the batching quality of coating raw materials, is convenient for collect the deposit of sieving simultaneously to follow-up reuse it.

4. Can concentrate the collection with the coating raw materials who mixes through mounting panel, storage tank, draw runner, connect workbin, pull spout, activity slider and storage cavity, and then reduced the degree of difficulty of connecing the material, connect the workbin simultaneously and easily pull out and push, and then make people to the coating raw materials of workbin inside become more convenient when moving the fortune.

5. Through sealed spread groove, regulation arm-tie, joint strip and handle can be when mixed coating raw materials flow in to discharging channel, carry out manual control to opening and closing of discharging channel, can utilize the activity of adjusting the arm-tie to adjust discharging channel's latus rectum simultaneously to people better collect coating raw materials.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the mounting structure of the mixing blade of the present invention;

FIG. 3 is a schematic structural view of the feeding assembly of the present invention;

FIG. 4 is a schematic structural view of the cleaning assembly of the present invention;

fig. 5 is a schematic structural view of the screening assembly of the present invention;

fig. 6 is a schematic structural view of the material receiving assembly of the present invention;

fig. 7 is a schematic structural view of the adjusting assembly of the present invention;

reference numbers in the figures: 1. a batching box; 2. fixing a strut; 3. a box cover; 4. a motor; 5. a rotating shaft; 6. mixing blades;

7. a feeding assembly; 701. a feed pipe; 702. a feed hopper; 703. a movable rotating plate; 704. connecting the rotating shaft; 705. a fixed seat; 706. a pressure-bearing spring;

8. cleaning the assembly; 801. a guide chute; 802. a dirt removal scraper; 803. a guide slider; 804. a manual telescopic push rod; 805. installing a sleeve plate; 806. a sewage draining groove; 807. sealing the clamping groove; 808. sealing the inserting plate;

9. a discharging groove; 10. a discharge channel; 11. a discharge through groove; 12. a screening component; 1201. a movable pulling plate; 1202. a connecting clamping groove; 1203. connecting a clamping block; 1204. filtering the screen; 1205. a sorting outlet;

13. a material receiving assembly; 1301. mounting a plate; 1302. a containing groove; 1303. groove drawing; 1304. a material receiving box; 1305. a pull chute; 1306. a movable slide block; 1307. a storage chamber;

14. an adjustment assembly; 1401. sealing the connecting groove; 1402. adjusting the pulling plate; 1403. sealing rubber strips; 1404. and (4) a handle.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example (b): as shown in fig. 1-7, the utility model provides a technical scheme, a batching system for production based on architectural coatings, including batching box 1, fixed pillars 2 are all installed at four corners of the bottom end of batching box 1, box cover 3 is installed at the top end of batching box 1, motor 4 is fixedly installed at the middle end of the top of box cover 3, the bottom of motor 4 is located at the internal position of batching box 1 and is rotatably connected with rotating shaft 5, the two side portions of rotating shaft 5 are fixedly connected with mixing blades 6, feeding assembly 7 is installed at the top surface of box cover 3 located at the four side positions of motor 4, feeding assembly 7 includes feeding pipe 701, feeding hopper 702, movable rotating plate 703, connecting rotating shaft 704, fixing base 705 and pressure-bearing spring 706;

the four sides of the top surface of the box cover 3 are respectively provided with a feeding pipe 701, the top ends of the four feeding pipes 701 are respectively provided with a feeding hopper 702, two sides of the inner side of the feeding hopper 702 are respectively movably connected with a movable rotating plate 703, the movable rotating plates 703 are rotatably connected with the inner wall of the feeding hopper 702 through connecting rotating shafts 704, two sides of the top of each movable rotating plate 703 are respectively provided with a fixed seat 705, one side of each fixed seat 705 is fixedly connected with a pressure-bearing spring 706, the other end of each pressure-bearing spring 706 is fixedly connected with the inner wall of the feeding hopper 702, the bottom of the inner side of the proportioning box 1 is provided with a cleaning assembly 8, each cleaning assembly 8 comprises a guide sliding chute 801, a dirt cleaning scraper 802, a guide;

two side ends of the inner bottom of the batching box 1 are respectively provided with a guide chute 801, one side part of the batching box 1 is movably connected with a manual telescopic push rod 804, one end of the manual telescopic push rod 804 is positioned in the batching box 1 and is connected with a dirt removing scraper 802, the inner side end of the movable rotating plate 703 is respectively bonded with a flexible rubber lapping sheet, the bottom part and two side surfaces of the dirt removing scraper 802 are respectively bonded with a rubber scraping sheet, so that the two movable rotating plates 703 are in a mutually parallel state, no overlarge gap is generated between the two movable rotating plates 703, the dirt removing capability of the dirt removing scraper 802 is improved, the positions of the two side ends of the dirt removing scraper 802 corresponding to the guide chutes 801 are respectively connected with a guide sliding block 803, the other side part of the batching box 1 and the position corresponding to the manual telescopic push rod 804 are fixedly connected with an installation sleeve plate 805, a dirt discharging chute 806 is arranged in the installation sleeve plate 805, the dirt discharging chute 806 is, a sealing plug board 808 is embedded and matched in the sealing slot 807;

feed trough 9 has been seted up to 1 bottom middle-end of batching box, and 1 bottom of batching box and feed trough 9 correspond position department fixedly connected with discharging channel 10, discharging channel 10 is inside to have seted up the ejection of compact and to lead to groove 11.

A screening assembly 12 is arranged in the discharge channel 10, and the screening assembly 12 comprises a movable pull plate 1201, a connecting clamping groove 1202, a connecting clamping block 1203, a filtering screen 1204 and a sorting outlet 1205;

inside one side slant swing joint of discharging channel 10 has activity arm-tie 1201, the inside both sides of ejection of compact logical groove 11 all have been seted up with activity arm-tie 1201 corresponding position department and have been connected draw-in groove 1202, activity arm-tie 1201 is connected through the joint fixture block 1203 of its both sides limit end and the joint between draw-in groove 1202, the inside embedding of activity arm-tie 1201 is fixed to be bonded has filter screen 1204, sorting outlet 1205 has been seted up to discharging channel 10 one side portion, the installation angle of activity arm-tie 1201 is thirty degrees, sorting outlet 1205 is seted up in the low department of activity arm-tie 1201, and sorting outlet 1205 meets with activity arm-tie 1201, be convenient for with the quick transport of deposit of the inside filter screen 1204 screening of activity arm-tie 1201 to sort in the outlet.

The bottom end of the discharging channel 10 is fixedly connected with a material receiving assembly 13, and the material receiving assembly 13 comprises a mounting plate 1301, a containing groove 1302, a pull groove 1303, a material receiving box 1304, a drawing chute 1305, a movable slide block 1306 and a storage chamber 1307;

discharging channel 10 bottom is connected with mounting panel 1301, mounting panel 1301 has inside offered storage tank 1302, mounting panel 1301 side portion has seted up draw groove 1303, the inside embedding of draw groove 1303 is connected with and connects workbin 1304, mounting panel 1301 top is linked together with discharging channel 10, be convenient for carry to in connecing workbin 1304 through the mixture in discharging channel 10, pull spout 1305 has all been seted up to storage tank 1302 both sides limit end, it all is connected through the pull between activity slider 1306 and the storage tank 1302 to connect workbin 1304 inside storage chamber 1307 has been seted up, the internal diameter of pull spout 1305 is greater than the external diameter of activity slider 1306, and the junction of pull spout 1305 and activity slider 1306 is provided with lubricating grease, be convenient for the activity between pull spout 1305 and the activity slider 1306 slides.

An adjusting assembly 14 is arranged at one side of the bottom of the discharging channel 10, which is close to the mounting plate 1301, and the adjusting assembly 14 comprises a sealing connecting groove 1401, an adjusting pull plate 1402, a sealing rubber strip 1403 and a handle 1404;

sealed connecting groove 1401 has all been seted up to each limit portion of ejection of compact logical groove 11 bottom, the inside embedding of sealed connecting groove 1401 agrees with to be connected with and adjusts arm-tie 1402, it has joint strip 1403 all to adjust the inside position department that the both sides limit end of arm-tie 1402 is located sealed connecting groove 1401, fastening slot has been seted up with joint strip 1403's the junction in the inboard limit end of sealed connecting groove 1401, and joint strip 1403 inlays in fastening slot, make and possess higher leakproofness after being connected between joint strip 1403 and the sealed connecting groove 1401, it is connected with handle 1404 to adjust arm-tie 1402 outside limit end, it is provided with the apron to adjust arm-tie 1402 outside limit end, handle 1404 is installed in the apron surface, and the inboard limit end bonding of apron has the gasket, make the junction of adjusting arm-tie 1402 and discharging channel 10 not.

The utility model discloses a theory of operation and use flow: in the practical application process of the batching system for producing architectural coatings, firstly, the batching box 1 is moved to a production area, and the batching box 1 is fixedly supported by the fixed support column 2 at the bottom of the batching box, then, coating raw materials to be mixed are added into the corresponding feed hopper 702, after a plurality of coating raw materials are respectively added into the corresponding feed hopper 702, the entering coating raw materials can be preliminarily blocked by the movable rotating plate 703 inside the feed hopper 702, so that the coating raw materials are accumulated on the top surface of the movable rotating plate 703, when the coating raw materials are added to a certain amount, and when the weight of the accumulated coating raw materials is greater than the elastic force of the pressure-bearing spring 706, the pressure-bearing spring 706 deforms, so that the movable rotating plate 703 rotates through the connecting rotating shafts 704 at two sides of the movable rotating plate 703, and a gap is generated at one side where the two movable rotating plates 703 are close to each other, the coating raw materials enter the feeding pipe 701 through the gap and are added into the batching box 1 through the feeding pipe 701, and after the coating raw materials on the top surface of the movable rotating plate 703 enter the feeding pipe 701, the pressure-bearing spring 706 resets at the moment, so that the movable rotating plate 703 is driven to return to the original position, and the coating raw materials are separated through the movable rotating plate 703 again, so that the excessive difference between the amounts of the coating raw materials added into the feeding hoppers 702 cannot be generated, and the batching convenience is improved;

after the coating raw materials are added into the batching box 1 through the feeding pipe 701, the motor 4 is started at the moment, the rotating shaft 5 is driven to rotate through the motor 4, and the mixing blade 6 is driven to rotate through the rotation of the rotating shaft 5, so that when the coating raw materials fall onto the mixing blade 6, the building coating can be uniformly dispersed through the mixing blade 6, and various coating raw materials are mixed;

after the coating raw materials are mixed, the mixed coating raw materials are conveyed into a discharge channel 10 through a discharging groove 9, after the coating enters a discharge through groove 11 in the discharge channel 10, the coating raw materials can fall onto a movable pull plate 1201 at the moment, the movable pull plate 1201 is installed in an inclined mode, the coating raw materials can be screened through a filter screen 1204 in the movable pull plate 1201, so that the coating raw materials meeting the standard can directly fall into the bottom of the discharge through groove 11 through the filter screen 1204, the accumulated materials of the coating raw materials not meeting the standard can roll down along the movable pull plate 1201 to the lower part of the movable pull plate and are discharged through a sorting outlet 1205, and a worker can collect the sorted coating raw material accumulated materials only by placing a material receiving container at the sorting outlet 1205;

after the paint raw materials meeting the standard enter the discharging through groove 11, the adjusting pull plate 1402 is pulled out from the sealing connecting groove 1401 by the handle 1404, so that the bottom of the discharging through groove 11 is in an open state, further the paint raw materials are conveniently conveyed downwards, and the through diameter of the discharging through groove 11 is conveniently adjusted by people through movably adjusting the adjusting pull plate 1402 in the sealing connecting groove 1401, further the discharging amount of the discharging through groove 11 is manually controlled, and further the phenomenon that the discharging speed of the paint raw materials is too high or too low is avoided;

when the coating raw materials pass through the discharging through groove 11, the coating raw materials directly fall into the mounting plate 1301, the coating raw materials falling into the mounting plate 1301 are collected in a concentrated manner through the material receiving box 1304 in the mounting plate 1301, and when the coating raw materials in the material receiving box 1304 are collected to a certain amount, the material receiving box 1304 can be conveniently pulled out of the draw groove 1303 through the movable sliding between the movable sliding block 1306 and the drawing sliding groove 1305, so that people can conveniently collect and carry the coating raw materials in the material receiving box 1304 in a concentrated manner, and the convenience of material receiving is improved;

after the batching box 1 finishes batching, the manual telescopic push rod 804 is used for pushing the dirt removing scraper 802 to move, in the moving process of the dirt removing scraper 802, the rubber scrapers on the bottom and two side surfaces of the dirt removing scraper 802 can cling to the inner wall of the batching box 1 to move through the guiding sliding between the guiding sliding grooves 801 on the inner wall of the batching box 1 by the edge guiding sliding block 803, so as to scrape the residual paint on the bottom of the inner side of the batching box 1, along with the moving of the dirt removing scraper 802, when the dirt removing scraper 802 contacts with the inner wall of the batching box 1, the residual paint can be pushed into the mounting sleeve plate 805 by the dirt removing scraper 802, and then the sealing inserting plate 808 is pulled out from the sealing clamping groove 807, so as to discharge the residual paint through the dirt discharging groove 806, thereby avoiding the residual paint from accumulating and remaining in the batching box 1, further prevent to pile up and the influence is caused to batching next time of batching box 1 with remaining coating, further reduced the intensity of labour of manual cleaning.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a based on feed proportioning system for architectural coatings production, includes batching box (1), fixed stay (2) are all installed to batching box (1) bottom four corners department, case lid (3) are installed on batching box (1) top, case lid (3) top middle-end fixed mounting has motor (4), motor (4) bottom is located batching box (1) internal position department and rotates and be connected with pivot (5), pivot (5) both sides limit portion has all linked firmly compounding blade (6), its characterized in that: the top surface of the box cover (3) is provided with feeding components (7) at the positions of four sides of the motor (4), and each feeding component (7) comprises a feeding pipe (701), a feeding hopper (702), a movable rotating plate (703), a connecting rotating shaft (704), a fixed seat (705) and a pressure-bearing spring (706);

all install inlet pipe (701) in four side positions department of case lid (3) top surface four inlet pipe (702) are all installed on inlet pipe (701) top, the equal swing joint in both sides portion of feeder hopper (702) inboard has activity to change board (703), rotate through being connected pivot (704) between activity commentaries on classics board (703) and feeder hopper (702) inner wall and be connected, fixing base (705) are all installed to activity commentaries on classics board (703) top both sides, fixing base (705) one side fixedly connected with pressure-bearing spring (706), and pressure-bearing spring (706) other end and feeder hopper (702) inner wall fixed connection, clearance subassembly (8) are installed to batching case (1) inboard bottom, clearance subassembly (8) are including direction spout (801), clear dirty scraper blade (802), direction slider (803), manual flexible push rod (804), installation sleeve board (805), A sewage draining groove (806), a sealing clamping groove (807) and a sealing inserting plate (808);

the two side ends of the bottom of the inner side of the batching box (1) are both provided with guide sliding chutes (801), one side part of the batching box (1) is movably connected with a manual telescopic push rod (804), one end of the manual telescopic push rod (804) is positioned in the batching box (1) and is connected with a dirt cleaning scraper blade (802), the positions of the two side edges of the dirt cleaning scraper (802) corresponding to the guide sliding grooves (801) are both connected with guide sliding blocks (803), the other side part of the batching box (1) is fixedly connected with an installation sleeve plate (805) at the position corresponding to the manual telescopic push rod (804), a sewage draining groove (806) is arranged inside the installation sleeve plate (805), the sewage draining groove (806) is communicated with the batching box (1), a sealing clamping groove (807) is arranged at the upper position of the inner side of the mounting sleeve plate (805), a sealing inserting plate (808) is embedded and matched in the sealing clamping groove (807);

batching box (1) bottom middle-end has seted up down silo (9), batching box (1) bottom corresponds position department fixedly connected with discharging channel (10) with silo (9) down, discharging channel (10) inside has seted up ejection of compact and has led to groove (11).

2. The batching system for architectural coating production based on claim 1, wherein: a screening assembly (12) is arranged in the discharging channel (10), and the screening assembly (12) comprises a movable pull plate (1201), a connecting clamping groove (1202), a connecting clamping block (1203), a filtering screen (1204) and a sorting outlet (1205);

discharge channel (10) inside one side slant swing joint has activity arm-tie (1201), the inside both sides of ejection of compact logical groove (11) all seted up connection slot (1202) with activity arm-tie (1201) corresponding position department, activity arm-tie (1201) are connected through the joint between connection fixture block (1203) and connection slot (1202) of its both sides limit end, the fixed filter screen (1204) that bonds of activity arm-tie (1201) inside embedding, discharge channel (10) one side portion has been seted up and has been selected separately export (1205).

3. The batching system for architectural coating production based on claim 1, wherein: flexible rubber sheets are bonded at the inner side ends of the movable rotating plate (703), and rubber scraping sheets are bonded at the bottom and the two side surfaces of the dirt cleaning scraping plate (802).

4. The batching system for architectural coating production based on claim 2, wherein: the installation angle of the movable pulling plate (1201) is thirty degrees, the sorting outlet (1205) is arranged at the lower part of the movable pulling plate (1201), and the sorting outlet (1205) is connected with the movable pulling plate (1201).

5. The batching system for architectural coating production based on claim 1, wherein: the bottom end of the discharging channel (10) is fixedly connected with a material receiving assembly (13), and the material receiving assembly (13) comprises a mounting plate (1301), an accommodating groove (1302), a pull groove (1303), a material receiving box (1304), a pull sliding groove (1305), a movable sliding block (1306) and a storage chamber (1307);

the bottom end of the discharging channel (10) is connected with a mounting plate (1301), a containing groove (1302) is formed in the mounting plate (1301), a drawing groove (1303) is formed in one side edge portion of the mounting plate (1301), a material receiving box (1304) is connected to the inside of the drawing groove (1303) in an embedded mode, drawing sliding grooves (1305) are formed in two side edge portions of the containing groove (1302), two side edge portions of the material receiving box (1304) are connected with the containing groove (1302) in a drawing mode through movable sliding blocks (1306), and a storage chamber (1307) is formed in the material receiving box (1304).

6. The batching system for architectural coating production based on claim 5, wherein: the top of the mounting plate (1301) is communicated with the discharge channel (10).

7. The batching system for architectural coating production based on claim 5, wherein: the inner diameter of the drawing sliding groove (1305) is larger than the outer diameter of the movable sliding block (1306), and lubricating grease is arranged at the connecting position of the drawing sliding groove (1305) and the movable sliding block (1306).

8. The batching system for architectural coating production based on claim 5, wherein: an adjusting assembly (14) is arranged on one side, close to the mounting plate (1301), of the bottom of the discharging channel (10), and the adjusting assembly (14) comprises a sealing connecting groove (1401), an adjusting pull plate (1402), a sealing rubber strip (1403) and a handle (1404);

sealed connecting groove (1401) have all been seted up to each limit portion of ejection of compact logical groove (11) bottom, the inside embedding of sealed connecting groove (1401) is agreed with and is connected with regulation arm-tie (1402), it has joint strip (1403) all to glue in sealed connecting groove (1401) inside position department to adjust arm-tie (1402) both sides limit end, it is connected with handle (1404) to adjust arm-tie (1402) outside limit end.

9. The batching system for architectural coating production according to claim 8, wherein: a fastening clamping groove is formed in the joint of the inner side edge end of the sealing connecting groove (1401) and the sealing rubber strip (1403), and the sealing rubber strip (1403) is embedded in the fastening clamping groove.

10. The batching system for architectural coating production according to claim 8, wherein: the adjusting pull plate (1402) is provided with a cover plate at the outer side end, the handle (1404) is installed on the surface of the cover plate, and a sealing piece is bonded at the inner side end of the cover plate.

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