CN218221344U - Filtering device for building energy-saving coating - Google Patents

Abstract

The utility model discloses a building energy-saving is filter equipment for coating relates to building technical field. The utility model discloses an upper shed bucket is provided with the feeding subassembly on the upper shed bucket, and the feeding subassembly includes main inlet pipe, circular slab, an upper shed mesh section of thick bamboo and a inlet pipe, and the inside upside circular slab downside of upper shed bucket is annular array and an upper shed mesh section of thick bamboo outside upper portion external screw thread body threaded connection, and main inlet pipe downside is annular array distribution directly over the circular slab and has a inlet pipe, a inlet pipe outside lower part and the inboard upper portion internal thread body threaded connection of an upper shed mesh section of thick bamboo, and the inside downside of upper shed bucket is provided with the stirring subassembly. The utility model discloses a set up the feeding subassembly for this building energy-saving coating is with filter equipment filters coating in succession, and then has promoted this building energy-saving coating is with filter equipment's work efficiency, and the stirring subassembly not only stirs the inside coating of upper shed bucket, clears up the coating on the upper shed bucket inside wall simultaneously.

Description

Filtering device for building energy-saving coating

Technical Field

The utility model belongs to the technical field of the building, especially, relate to a filter equipment for building energy saving coating.

Background

The building refers to an asset formed by artificial construction, belongs to the category of fixed assets, and comprises two categories of houses and structures; wherein, people are decorating the in-process in house, in order to increase the dampproofing and waterproofing effect in house, people can coat dampproofing and waterproofing paint on the wall, and at present, the staff uses the filter equipment for building energy-saving coating to carry out filtration treatment to coating for large granule impurity is filtered out in the coating.

Through the retrieval, disclose a filter equipment for building energy-saving coating in patent publication No. CN 213823733U's patent document, including filter main part and lid, the lid is installed on filter main part's top, and the middle part fixed mounting of lid has defeated material pipeline to defeated material pipeline is located filter main part's top, filter main part's internally mounted has the support frame, and the internal connection of support frame has rotatory mainboard, the embedded groove has been seted up on the surface of rotatory mainboard, and the internal connection of embedded groove has the filter bag main part, the ball is installed to the outer lane of rotatory mainboard, and the surface of ball is connected with the inner wall of support frame. This filter equipment for building energy-saving coating, during the staff poured building energy-saving coating into the entry of conveying pipeline, building energy-saving coating flowed in through the branch on the conveying pipeline and crosses filter bag main part, was favorable to practicing thrift and was expected the time, avoided spilling the material outside filtering bag main part pouring the material in-process one by one, had practiced thrift the manpower, had improved work efficiency.

However, the following disadvantages still exist in the practical use:

1. the filtering device for the building energy-saving coating disclosed in the patent publication No. CN213823733U drives the rotating main board to rotate through the arranged motor, so as to drive the embedded groove and the filter bag main body to rotate, but cannot drive the material conveying pipeline to rotate, so that the lower outlet of the material conveying pipeline cannot be always aligned with the filter bag main body, further the material conveying pipeline in the filtering device for the building energy-saving coating disclosed in the patent publication No. CN213823733U cannot continuously add the coating into the filter bag main body, further the filtering device for the building energy-saving coating disclosed in the patent publication No. CN213823733U cannot continuously filter the coating, and further the working efficiency of the filtering device for the building energy-saving coating disclosed in the patent publication No. CN213823733U is reduced;

2. in the filtering device for building energy-saving paint disclosed in patent publication No. CN213823733U, the stirring device is driven by the motor to rotate, and the rotating stirring device stirs the paint inside the filter main body.

Therefore, the filtering apparatus for building energy-saving paint disclosed in patent publication No. CN213823733U cannot meet the requirement of practical use, so that there is a strong need in the market for improved technology to solve the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a building energy-saving is filter equipment for coating through setting up feeding subassembly and stirring subassembly, has solved a building energy-saving is filter equipment for coating that discloses in the patent document of patent publication No. CN213823733U to the filtration work efficiency of coating low to and the single problem of agitating unit functionality.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a filtering device for building energy-saving coating, which comprises an upper opening barrel, wherein a feeding component is arranged on the upper opening barrel, the feeding component comprises a main feeding pipe, a circular plate, an upper opening mesh cylinder and a feeding pipe, the lower side of the upper circular plate in the upper opening barrel is in annular array and is in threaded connection with an upper external thread body on the outer side of the upper opening mesh cylinder, the lower side of the main feeding pipe right above the circular plate is in annular array distribution and is provided with a feeding pipe, the lower part of the outer side of the feeding pipe is in threaded connection with an upper internal thread body on the inner side of the upper opening mesh cylinder, a stirring component is arranged on the lower side in the upper opening barrel and comprises a U-shaped frame and an internal thread sleeve, the outer side of the middle internal thread sleeve on the lower side in the upper opening barrel is in annular array distribution and is provided with a U-shaped frame, the inner side wall of the U-shaped frame is equidistantly distributed with transverse shafts, and the outer side of the U-shaped frame is provided with a scraping rod, scrape inboard equidistant distribution spiale and the equidistant distribution in U-shaped frame outside and peg graft from the jack one by one, it is thus clear that, through the feeding subassembly that sets up, make this filter equipment for building energy saving coating treat that filter coating carries out continuous filtration treatment, and then promoted the efficiency when this filter equipment for building energy saving coating filters coating, and through the stirring subassembly that sets up, make this filter equipment for building energy saving coating clear up the upper shed bucket inside wall when filtering back coating stirring, and then promoted this filter equipment for building energy saving coating's functionality, and then solved a filter equipment for building energy saving coating that discloses in patent publication No. CN213823733U to the filtration work efficiency of coating, and the single problem of agitating unit functionality.

Further, upper shed bucket downside middle part is provided with drive assembly, drive assembly includes external screw thread pivot and motor, the inside external screw thread pivot downside of upper shed bucket is rotated with upper shed bucket downside middle part and is connected, external screw thread pivot downside motor downside is connected with the frame, the frame upside is connected with upper shed bucket downside, external screw thread pivot and internal thread sleeve threaded connection, specifically, the existence of motor, be used for driving external screw thread pivot and rotate, the existence of external screw thread pivot, be used for driving stirring subassembly and feeding component and rotate, the existence of frame, be used for supporting the limited motor, and then the stability of motor during operation has been promoted.

Furthermore, the inside upside of upper shed bucket is connected with annular extension board, annular extension board and the circular slab outside are ring array distribution ball swing joint, circular slab middle part and external screw thread pivot upside through connection, external screw thread pivot upside nut downside and circular slab upside butt, specifically, the existence of annular extension board for support the circular slab, the existence of ball has reduced the frictional force between annular extension board and the circular slab, and then the rotation of the circular slab of being convenient for, the existence of nut is used for preventing the circular slab from upwards moving when rotating and breaking away from the external screw thread pivot.

Further, the upper opening bucket upside is provided with the top cap, annular seat upside is annular array threaded connection and has the bolt on the lower part of top cap outside, annular seat upside and bolt downside threaded connection under the upper portion of upper opening bucket outside, top cap upside middle part is rotated with main inlet pipe outside lower part bearing and is connected, concretely, the existence of lower annular seat, be used for supporting to prescribe a limit to annular seat, and then prescribe a limit to the position of top cap at upper opening section of thick bamboo upside, the existence of bolt, be used for locking connection upper opening bucket and top cap, and make detachable connection between upper opening bucket and the top cap, the existence of bearing, frictional force between main inlet pipe and the top cap has been reduced, and then be favorable to main inlet pipe to rotate along with the rotation of pivot.

Further, the lower side of the upper opening barrel is communicated with a discharge pipe, a valve is connected onto the discharge pipe, and specifically, the discharge pipe is used for discharging the filtered coating inside the upper opening barrel.

Further, it has the Z shape support to be annular array distribution in the middle part of the upper shed bucket outside, and Z shape support downside is less than the discharging pipe downside, specifically speaking, the existence of Z shape support for support the upper shed bucket, and then make and have the clearance between upper shed bucket downside and the ground, and then make and have the clearance between discharging pipe lower part and the ground, and then the person of facilitating the use places external flourishing storage bucket at the discharging pipe downside, and then is convenient for collect from discharging pipe exhaust coating.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up the feeding subassembly, make main inlet pipe, an inlet pipe and an upper shed mesh section of thick bamboo rotate along with the rotation of external screw thread pivot simultaneously, and then make main inlet pipe, relative position between an inlet pipe and the upper shed mesh section of thick bamboo does not change all the time, and then make the user can be continuous different treat filterable coating through the inside joining of main inlet pipe, and then make the incessant entering of treating filterable coating go up the inside filtration that goes on of an opening mesh section of thick bamboo, and then make this filter equipment for building energy-saving coating treat that filterable coating carries out continuous filtration treatment, and then promoted this filter equipment for building energy-saving coating and treated the filtration efficiency of filtering coating.

2. The utility model discloses a set up the stirring subassembly for scrape the pole and rotate along with the rotation of external screw thread pivot, and the pivoted coating of scraping the pole on to the upper shed bucket inside wall clears up, and then make the stirring subassembly not only stir the inside coating of upper shed bucket, and can clear up the coating on the upper shed bucket inside wall in addition, and then promoted the functional of stirring subassembly, and through the cooperation of inserted shaft and jack, the person of facilitating the use is to the dismouting of scraping the pole.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a filtering device for building energy-saving paint;

FIG. 2 is a schematic view of the connection of the upper opening pail to the drive assembly;

FIG. 3 is a schematic view of the connection of the upper open bucket and the feeding assembly;

FIG. 4 is a schematic structural view of a mesh cylinder with an upper opening;

FIG. 5 is a schematic view of the connection of the top cover and the upper open bucket;

FIG. 6 is a schematic view of the connection of the upper open bucket and the blending assembly;

FIG. 7 is a schematic view of the connection of an upper opening barrel and a tapping pipe.

In the drawings, the reference numbers indicate the following list of parts:

1. a barrel with an upper opening; 11. a Z-shaped bracket; 12. a lower annular seat; 2. a top cover; 21. an upper annular seat; 22. a bolt; 3. a feed assembly; 31. a main feed pipe; 32. a bearing; 33. a circular plate; 34. a ball bearing; 35. the upper part is provided with a mesh cylinder; 351. an internal threaded body; 352. an external threaded body; 36. an annular support plate; 37. a nut; 38. a feeding pipe is arranged; 4. a discharge pipe; 41. a valve; 5. a drive assembly; 51. a machine base; 52. an external thread rotating shaft; 53. a motor; 6. a stirring assembly; 61. a U-shaped frame; 62. a jack; 63. inserting a shaft; 64. a scraping rod; 65. a horizontal axis; 66. an internally threaded sleeve.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Please refer to fig. 1 to 7, the utility model relates to a filtering apparatus for building energy-saving coating, including upper opening bucket 1, upper opening bucket 1 is provided with feeding subassembly 3, feeding subassembly 3 includes main inlet pipe 31, circular plate 33, upper opening mesh cylinder 35 and branch inlet pipe 38, the inside upside circular plate 33 downside of upper opening bucket 1 is ring array and upper portion external screw thread body 352 threaded connection outside upper opening mesh cylinder 35, main inlet pipe 31 downside is ring array distribution directly over circular plate 33 has branch inlet pipe 38, branch inlet pipe 38 outside lower part and upper portion internal screw thread body 351 threaded connection inside upper opening mesh cylinder 35, specifically, after user starts motor 53, drive circular plate 33 and rotate on ring support plate 36, and then drive upper opening mesh cylinder 35 and rotate, and then drive branch inlet pipe 38 and rotate, and then drive main inlet pipe 31 and rotate;

when the user detaches the feeding assembly 3 from the inside of the upper open bucket 1, the user rotates the upper open mesh cylinder 35, so that the upper open mesh cylinder 35 rotates and moves in the direction away from the feeding pipe 38, and at the same time, the upper open mesh cylinder 35 moves in the direction away from the circular plate 33 until the upper open mesh cylinder 35 completely detaches from the circular plate 33, so that the user completes detachment among the circular plate 33, the upper open mesh cylinder 35 and the feeding pipe 38; on the contrary, the user completes the connection between the detachment of the circular plate 33, the upper opening mesh cylinder 35 and the branch feeding pipe 38;

the stirring component 6 is arranged on the lower side inside the upper opening barrel 1, the stirring component 6 comprises a U-shaped frame 61 and an internal thread sleeve 66, the U-shaped frame 61 is distributed on the outer side of the internal thread sleeve 66 in the middle of the lower side inside the upper opening barrel 1 in an annular array mode, cross shafts 65 are distributed on the inner side wall of the U-shaped frame 61 in an equidistant mode, scraping rods 64 are arranged on the outer side of the U-shaped frame 61, inserting shafts 63 distributed on the inner side of the scraping rods 64 in an equidistant mode are in one-to-one insertion connection with the outer side of the U-shaped frame 61 from insertion holes 62 in an equidistant mode, specifically, after a user starts a motor 53, the internal thread sleeve 66 is driven to rotate, the U-shaped frame 61 and the cross shafts 65 are driven to rotate to stir the filtered paint inside the upper opening barrel 1, meanwhile, the scraping rods 64 are driven to rotate, and the rotating scraping rods 64 clean the paint on the inner side wall of the upper opening barrel;

after the user finishes the separation between the motor 53 and the external thread rotating shaft 52, the user takes the stirring assembly 6 out of the upper opening barrel 1, and then, the user applies an external force to the scraping rod 64 in a direction away from the U-shaped frame 61 until the inserting shaft 63 is completely separated from the inner side of the inserting hole 62, so that the user finishes the separation of the scraping rod 64; instead, the user attaches the wiper bar 64 to the clevis 61.

As shown in fig. 2, a driving assembly 5 is arranged in the middle of the lower side of the upper open-top barrel 1, the driving assembly 5 comprises an external thread rotating shaft 52 and a motor 53, the lower side of the external thread rotating shaft 52 inside the upper open-top barrel 1 is rotatably connected with the middle of the lower side of the upper open-top barrel 1, the lower side of the motor 53 on the lower side of the external thread rotating shaft 52 is connected with a base 51, the upper side of the base 51 is connected with the lower side of the upper open-top barrel 1, the external thread rotating shaft 52 is in threaded connection with an internal thread sleeve 66, specifically, a user is communicated with an external power supply of the motor 53, and then the user uses an external control end to start the motor 53 to drive the external thread rotating shaft 52 to rotate, thereby driving the internal thread sleeve 66 to rotate; wherein, the motor 53 is connected with the external thread rotating shaft 52 through a coupling.

As shown in fig. 3, an annular support plate 36 is connected to the upper side inside the upper open-top bucket 1, the annular support plate 36 is movably connected to the outer side of the circular plate 33 in an annular array distribution of the balls 34, the middle of the circular plate 33 is connected to the upper side of the external thread rotating shaft 52 in a penetrating manner, the lower side of the nut 37 on the upper side of the external thread rotating shaft 52 is abutted to the upper side of the circular plate 33, specifically, after the user finishes the separation between the top cover 2 and the upper open-top bucket 1, the user rotates the nut 37 until the nut 37 is completely separated from the external thread rotating shaft 52, and the user applies an external force to the circular plate 33 in a direction away from the inside of the upper open-top bucket 1, so that the feeding assembly 3 can be detached from the inside of the upper open-top bucket 1; conversely, the circular plate 33 is locked inside the upper open tub 1, i.e. the feeding assembly 3 is locked inside the upper open tub 1; when the motor 53 is activated, the balls 34 are caused to roll along the annular support member 36, thereby causing the circular plate 33 to rotate on the annular support member 36.

As shown in fig. 5, a top cover 2 is arranged on the upper side of the upper open-top barrel 1, bolts 22 are connected to the upper side of an upper annular seat 21 on the lower part of the outer side of the top cover 2 in an annular array manner, the upper side of a lower annular seat 12 on the upper part of the outer side of the upper open-top barrel 1 is connected to the lower side of the bolts 22 in a threaded manner, the middle part of the upper side of the top cover 2 is rotatably connected to a lower bearing 32 on the outer side of a main feeding pipe 31, specifically, a user rotates the bolts 22 until the bolts 22 are completely separated from the lower annular seat 12, and then the user applies upward external force to the top cover 2, so that the top cover 2 can be detached from the upper open-top barrel 1; instead, the user uses the bolt 22 to lockingly attach the top cover 2 to the upper side of the upper open tub 1.

As shown in fig. 7, the lower side of the upper open-top barrel 1 is communicated with a discharge pipe 4, the discharge pipe 4 is connected with a valve 41, specifically, a user opens the valve 41, so that the filtered paint in the upper open-top barrel 1 is discharged from the discharge pipe 4; on the contrary, when the user closes the valve 41, the filtered paint inside the upper open-top bucket 1 cannot be discharged from the discharge pipe 4.

As shown in figure 1, Z-shaped supports 11 are distributed in the middle of the outer side of an upper opening barrel 1 in an annular array mode, the lower sides of the Z-shaped supports 11 are lower than the lower side of a discharge pipe 4, specifically, a user places the Z-shaped supports 11 on the ground stably, and then the upper opening barrel 1 is placed on the ground stably, and further the filtering device for the building energy-saving coating is located on the ground stably.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a building energy saving is filter equipment for coating, includes upper shed bucket (1), its characterized in that: the upper opening barrel (1) is provided with a feeding assembly (3), and the feeding assembly (3) comprises a main feeding pipe (31), a circular plate (33), an upper opening mesh cylinder (35) and a branch feeding pipe (38);

the lower side of the circular plate (33) on the upper side in the upper opening barrel (1) is in annular array and is in threaded connection with an upper external thread body (352) on the outer side of the upper opening mesh cylinder (35), branch feeding pipes (38) are distributed on the lower side of the main feeding pipe (31) right above the circular plate (33) in annular array, and the lower part of the outer side of each branch feeding pipe (38) is in threaded connection with an upper internal thread body (351) on the inner side of the upper opening mesh cylinder (35);

a stirring component (6) is arranged on the lower side in the upper opening barrel (1), and the stirring component (6) comprises a U-shaped frame (61) and an internal thread sleeve (66);

the utility model discloses a barrel structure, including upper shed bucket (1), internal thread sleeve (66) outside is the annular array and distributes and have U-shaped frame (61), the equidistant distribution of U-shaped frame (61) inside wall has cross axle (65), the U-shaped frame (61) outside is provided with scrapes pole (64), scrape pole (64) inboard equidistant distribution insert axle (63) with the equidistant distribution in U-shaped frame (61) outside is pegged graft from jack (62) one by one.

2. The filtering device for building energy-saving paint as claimed in claim 1, wherein: a driving component (5) is arranged in the middle of the lower side of the upper opening barrel (1), and the driving component (5) comprises an external thread rotating shaft (52) and a motor (53);

the upper shed bucket (1) is inside external screw thread pivot (52) downside with upper shed bucket (1) downside middle part rotates to be connected, external screw thread pivot (52) downside motor (53) downside is connected with frame (51), frame (51) upside with upper shed bucket (1) downside is connected, external screw thread pivot (52) with internal thread sleeve (66) threaded connection.

3. The filtering device for building energy-saving paint as claimed in claim 2, wherein: the inside upside of upper shed bucket (1) is connected with annular extension board (36), annular extension board (36) and circular slab (33) outside are ring array distribution ball (34) swing joint, circular slab (33) middle part with external screw thread pivot (52) upside through connection, external screw thread pivot (52) upside nut (37) downside with circular slab (33) upside butt.

4. The filtering device for building energy-saving paint as claimed in claim 3, wherein: go up open-top bucket (1) upside and be provided with top cap (2), annular seat (21) upside is annular array threaded connection and has bolt (22) on top cap (2) outside lower part, upper portion lower annular seat (12) upside in the upper portion of upper open-top bucket (1) outside with bolt (22) downside threaded connection, top cap (2) upside middle part rotates with main inlet pipe (31) outside lower part bearing (32) to be connected.

5. The filtering device for building energy-saving paint as claimed in claim 4, wherein: the lower side of the upper opening barrel (1) is communicated with a discharge pipe (4), and the discharge pipe (4) is connected with a valve (41).

6. The filtering device for building energy-saving paint as claimed in claim 5, wherein: z-shaped supports (11) are distributed in the middle of the outer side of the upper opening barrel (1) in an annular array mode, and the lower sides of the Z-shaped supports (11) are lower than the lower sides of the discharge pipes (4).

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