CN212707417U - Storage bin distribution structure of top-mounted stirring building - Google Patents

Storage bin distribution structure of top-mounted stirring building Download PDF

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Publication number
CN212707417U
CN212707417U CN202020506144.5U CN202020506144U CN212707417U CN 212707417 U CN212707417 U CN 212707417U CN 202020506144 U CN202020506144 U CN 202020506144U CN 212707417 U CN212707417 U CN 212707417U
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bins
bin
aggregate
powder
storage
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CN202020506144.5U
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梁双起
付天锋
汪流锋
任亚晋
冯万磊
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Henan Sanhe Hydraulic Machinery Group Co ltd
Henan Sanhe Hydraulic New Building Material Machinery Co ltd
Zhengzhou Sanhe Hydraulic Machinery Co ltd
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Henan Sanhe Hydraulic Machinery Group Co ltd
Henan Sanhe Hydraulic New Building Material Machinery Co ltd
Zhengzhou Sanhe Hydraulic Machinery Co ltd
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Priority to CN202020506144.5U priority Critical patent/CN212707417U/en
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Abstract

The utility model discloses a storage bin distribution structure of a top-mounted mixing plant, which comprises a storage bin layer arranged at the top of an integrated frame; arranging a plurality of bins on the bin layer; the storage bins are arranged on the same plane at the top of the integrated frame; the shape and the size of all the plurality of bins are the same or close to each other; the storage bins comprise a powder bin, an aggregate bin and/or a sand bin; the shape and the size of the plurality of bins are the same or close to each other, and the plurality of rows of bins are arranged in a T shape, a semi-surrounding type or a straight line type according to specific use requirements. The utility model discloses a feed bin structure, the powder storehouse of stirring building are all unified to be arranged on stirring building feed bin layer. A plurality of large circular aggregate bins and powder bins are used as the basis for arrangement, and a small storage bin can be arranged in the middle. Compact structure, area is little, and stirring layer, batching layer, stirring layer platform are unified big platform in addition, the maintenance of the equipment of being convenient for is overhauld.

Description

Storage bin distribution structure of top-mounted stirring building
Technical Field
The utility model relates to a stirring building field, it is specific, relate to a put feed bin distribution structure of top formula stirring building.
Background
The traditional mixing plant is generally characterized in that aggregate bins are arranged in the middle and around the powder bins and are independently arranged, an independent supporting frame is arranged, the aggregate bins are square storage bins, and small powder bins and water tanks need to be independently arranged. The structure is not compact, the space utilization rate is low, the structural types are more, the structure generalization and standardization are not facilitated, and the manufacturing cost is higher. The maintenance platform is relatively independent and not beneficial to daily maintenance, for example, an environment-friendly stirring building provided by CN201910135643.X has the advantages that the water tank and the stirring device are independently arranged, a large space is occupied, the large-scale production is not suitable, and in addition, the equipment is complex in structure and not beneficial to later maintenance. Simultaneously, because the environmental protection requirement is stricter day by day, in present concrete production, like CN201721864817.9 powder storehouse and aggregate storehouse setting of straying in vertical direction, this kind of setting can lead to the dust in the feed bin can fall to batching layer or stirring layer, leads to production operating mode dust to scatter everywhere, and production operating mode environment is relatively poor, collects the dust moreover and also can be difficult. In the prior art and engineering application, the aggregate bin is usually configured to be square, such as CN201910079758.1 and CN201721864817.9, because the storage volume of the square bin is larger than that of the round bin in the same packaging range during the production process, because the volume is larger, the times of conveying and adding are reduced, but the square bin also has the following problems: in the actual stirring building construction engineering, the square bin is of a segmented structure, and the square bin needs to be spliced on site by bolts, if a 300-cube square aggregate bin needs to be processed into the segmented structure in advance, then the square aggregate bin is transported to the site to be assembled and hoisted, and the whole process needs 20 workers in 4 days, so that the problems of high processing difficulty and long working hours exist. Meanwhile, the problem that the material accumulation angle is considered when the material dead angle exists at the lower part of the aggregate bin with the rectangular cross section in use.
SUMMERY OF THE UTILITY MODEL
The utility model discloses it is complicated to aim at solving among the prior art stirring building structure, and space utilization hangs down the scheduling problem, has proposed simultaneously in order to guarantee output based on dry stirring building feed bin distribution structure.
The stirring building comprises a material bin layer arranged at the top of the integrated frame;
arranging a plurality of bins on the bin layer;
the storage bins are arranged on the same plane at the top of the integrated frame;
the shape and the size of all the plurality of bins are the same or close to each other;
the storage bins comprise powder bins, aggregate bins and/or sand bins.
As an optimized scheme of the utility model, the shape of a plurality of feed bins is cylindrical, and the diameter of a plurality of feed bins is the same or is close.
The mixing plant can be a concrete mixing plant or a dry powder mortar mixing plant.
For the same volume, a cylindrical structure bin (a round bin for short) is adopted, the on-site manufacturing can be realized, and only 2 workers are needed for on-site installation and hoisting after the manufacturing is completed. Therefore, the problem of long working hours can be solved greatly by adopting the round bin, and the emergency engineering effect is very obvious.
In addition, because the technical scheme of this application has adopted integral type frame setting, on this frame construction's upper portion plane was all arranged in to all feed bins, from standardized angle starting, all set up powder storehouse and aggregate storehouse or grit storehouse into the same or similar cylindrical feed bin of size, then more be favorable to further improving the efficiency of processing and installation.
As an optimized scheme of the utility model, set up a plurality of small-size storage storehouses between a plurality of feed bins for water, liquid additive or likepowder additive store.
Because certain space still exists in the interval that the feed bin distribution of feed bin layer was arranged, consequently, can arrange a plurality of small-size storage storehouses in the space of these intervals, can be used for storing water, liquid additive or the powdery additive that concrete mixing needs.
As an optimized scheme of the utility model, a plurality of feed bin arrangement mode are multirow and multiseriate, wholly evenly arrange on horizontal cross-section.
The overall arrangement shape of the plurality of bins on the horizontal section can be unlimited and can be round, rectangular, polygonal and the like, and the plurality of bins are preferably arranged uniformly and integrally in the rectangular shape on the horizontal section due to the fact that the conventional stirring tower needs to be integrally packaged and the simplicity of appearance is met.
As an optimal technical scheme of the utility model, the quantity of feed bin is confirmed according to the processing cost of stirring building area, whole volume and stirring building.
The number of the bins is not limited, but in practical engineering, the occupied area is limited, and the cost of the mixing plant is increased when the number of the bins is large, so that when the number of the bins is S, the number of the powder bins is N, the number of the aggregate bins or sand bins is M, preferably, S is 6-9, N is 3-7, and M is 1-4.
As an optimized scheme of the utility model, work as when the feed bin of multirow multiseriate wholly is the align to grid of rectangle on horizontal cross section, include following several kinds to the mode of arranging of powder storehouse and aggregate storehouse or grit storehouse:
the first column and the last column of the multiple columns of bins are powder bins, and the middle column is an aggregate bin or an aggregate bin; or the first row and the last row of the multiple rows of bins are powder bins, and the middle row is an aggregate bin or a sand bin.
The storage bin is arranged in a semi-surrounding structure, namely, the middle is an aggregate bin or an aggregate bin, and the periphery is a powder bin; or the middle is a powder bin, the periphery is an aggregate bin or a sand-aggregate bin, and the periphery is a powder bin.
The bin arrangement mode is an integral rectangular arrangement, the powder bins are arranged in an L shape, and the rest parts are positioned in the aggregate bins or the sand and stone bins; or the aggregate bins or the sand and stone bins are arranged in an L shape, and the rest part of the aggregate bins or the sand and stone bins are arranged in the powder bins. The L-shaped arrangement mode is not limited by the position of the L-shaped in the overall rectangular arrangement, and the L-shaped arrangement mode can be satisfied.
The bin arrangement mode is that aggregate bins or sand and stone material bins are arranged in an integral rectangle to be in a T-shaped structure, and the rest parts are powder bins, so that the T-shaped arrangement mode is not limited by the position of the L-shaped bin in the integral rectangle, and the T-shaped arrangement mode can be realized as long as the T-shaped bin is satisfied.
As a preferred scheme of the utility model, including the combination of a plurality of above-mentioned feed bin arrangement, the mode of combination is not limited, can make up by the same mode of arrangement, for example L shape and L shape are combined each other, also can make up by different modes of arrangement, for example L shape and T shape are combined.
Adopt the utility model discloses, the beneficial effect who brings does:
(1) the utility model discloses a feed bin distribution structure, aggregate storehouse, powder storehouse, small-size storage storehouse are whole to be unified arranges the feed bin layer on stirring building upper portion to arrange on the basis of the great circular aggregate storehouse of several, powder storehouse, small-size water pitcher, stair can be arranged to the centre. The structure is compact, and the occupied area is small;
(2) the utility model has the advantages that the aggregate bins and the powder bins have the same or similar external dimensions, the overall arrangement is convenient, the usage and the number of the bins can be adjusted more flexibly, the generalization and the standardized design of products are facilitated, and the processing and manufacturing efficiency of the mixing plant is obviously improved; the shape of a plurality of feed bins is circular, so that the problem of long time in labor saving can be solved greatly, and the emergency engineering effect is very obvious.
(3) The utility model discloses a feed bin distribution structure, feed bin layer, batching layer, stirring layer platform are unified big platform, have prevented effectively that the feed bin dust from dropping batching layer and stirring layer, have improved the operating mode environment of feed bin layer lower part to easily the collection of dust.
Drawings
FIG. 1 is a front view of the structure of the present invention;
FIG. 2 is a schematic side view of the structure of the present invention;
FIG. 3 is a schematic view of the material bin layer, the material distribution layer and the stirring layer of the structure of the present invention;
FIG. 4 is a schematic view of the integrated frame structure of the present invention;
fig. 5 is a distribution schematic diagram of the semi-surrounding S9N7M2 of the storage bin of the present invention; FIG. 6
Is a distribution schematic diagram of the semi-surrounding S6N5M1 of the storage bin of the utility model; FIG. 7 is a drawing showing
The utility model discloses a distribution schematic diagram of the feed bin in a shape like a Chinese character 'yi';
FIG. 8 is a schematic view of the distribution of the stock bins in an L shape according to the present invention;
FIG. 9 is a T-shaped distribution diagram of the storage bin of the present invention;
fig. 10 is a schematic diagram of the rectangular distribution of the storage bin of the present invention;
FIG. 11 shows the semi-surrounding type of the storage bin of the present invention extends the semi-surrounding type distribution
FIG. 12 shows the distribution of the storage bin in the shape of a half-surrounded extension L
FIG. 13 shows that the stock bin is distributed in an L shape
In the figure, 1, an integrated frame, 2, a powder bin, 4, a closed cover, 6, an aggregate bin, 7, an aggregate weighing device, 8, a powder weighing device, 9, a water weighing device, 10, a dust removal device, 11, stairs, 12, a concrete mixer, 13, a concrete discharge hopper, 14, a feeding adhesive tape machine, 15, a transition receiving hopper, 16, a transition receiving hopper dust remover, 17, a bin top pulse dust remover, 18, a distributing adhesive tape machine, 19, a sand distributing adhesive tape machine, 20, an air chute, 21, a concrete mixing transport vehicle, 22 and a water tank.
Detailed Description
In the following, the technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
Example 1
As shown in fig. 1-3, a distribution structure of a storage bin of a top-mounted mixing plant comprises an integrated frame 1, wherein the integrated frame 1 is of an H-shaped steel structure, a rectangular steel pipe structure or a circular steel pipe structure and is used for fixing each component inside the integrated frame 1, a storage bin layer is arranged at the top of the integrated frame 1, a batching layer is arranged in the middle of the integrated frame, and a mixing layer is arranged at the lower part of the integrated frame; the top bin layer of the integrated frame 1 comprises a powder bin 2 and an aggregate bin 6, the top of the powder bin 2 is provided with a bin top pulse dust collector 17 to effectively prevent dust from being raised when the top of the powder bin 2 is filled, the top of the bin is also provided with a material distribution adhesive tape machine 18, the material distribution adhesive tape machine 18 can quantitatively transmit premix of a transition connecting hopper 15 to the aggregate bin 6 through a material loading adhesive tape machine 14, the material distribution adhesive tape machine 18 is of a movable structure, the direction of the material distribution adhesive tape machine 18 can be adjusted to face different bins, the direction of the material distribution adhesive tape machine 18 can be reversed, feeding to different bins is facilitated, and a sealing cover 4 is arranged above the material distribution adhesive tape machine 18 to prevent dust from being spread on the material distribution adhesive tape machine. Transition collecting hopper 15 links to each other with transition collecting hopper dust remover 16 in order to prevent transition collecting hopper department raise dust, transition collecting hopper dust remover 16 dust exhaust mouth links to each other with aggregate storehouse 6, the high-efficient premix that utilizes. The bottom of the bin is of an inverted cone structure, so that materials can be conveniently discharged from the bottom of the bin to a material mixing layer, the bottom of the powder bin 2 is connected with an air chute 20 in order to facilitate smooth transmission of powder and aggregate in the material mixing layer, and the bottom of the aggregate bin 6 is provided with a sand batching adhesive tape machine 19, the aggregates are discharged from the bottom of the aggregate bin 6 and fall on the sand batching adhesive tape machine 19, the sand distribution adhesive tape machine 19 and the air chute 20 respectively convey the aggregates and the powder to the aggregate weighing device 7 and the powder weighing device 8, the aggregate weighing device 7 and the powder weighing device 8 are both connected with the inlet of the concrete mixer 12, the inlet of the concrete mixer 12 is also connected with a water weighing device 9, the water weighing device 9 is connected with a water tank 22, the water tank 22 is a small storage bin disposed between the bins, and stores water, liquid additives or powder additives according to the use. The powder bin 2, the aggregate bin 6 and the bottom end of the small storage bin are conveniently transported to the stirring layer above the same plane. Water, powder and aggregate pass through weighing device and carry the stirring layer with certain proportion, the stirring layer includes concrete mixer 12, concrete play hopper 13 and concrete mixing transport vechicle 21, and concrete mixer 12 bottom sets up concrete play hopper 13 and makes things convenient for the concrete loading, and concrete mixing transport vechicle 21 stops the filling concrete in play hopper 13 below. A dust removal device 10 is arranged at the outlet of the powder weighing device 8 to prevent dust from rising, and a stair 11 is arranged at the bottom of the integrated frame 1 to facilitate workers to check the weighing device and the concrete mixer.
The bin arrangement mode shown in fig. 3 is rectangular and uniform, wherein the bin bodies of the powder bins 2 and the aggregate bins 6 are cylindrical and have the same or similar size, the arrangement in the integrated frame 1 is convenient, the number of the bins is S, the number of the powder bins is N, the number of the aggregate bins or the sand and stone bins is M, wherein S is 6-9, N is 3-7, and M is 1-4, the usage and the number of the bins can be adjusted more flexibly, and the universalization and the standardized design of products are utilized.
Example 2
In this embodiment, the structure of the bin layer, the material blending layer and the stirring layer of the stirring building is the same as that of embodiment 1, as shown in fig. 5, the arrangement mode of the bins is rectangular and uniform, wherein the bin bodies of the powder bin 2 and the aggregate bin 6 are both cylindrical and have the same or similar size, the number of the bins is S, the number of the powder bins is N, the number of the aggregate bins or the sand and stone bins is M, wherein S is 9, N is 7, and M is 2.
In this embodiment, the multiple rows and columns of bins are arranged in a semi-enclosed structure, the middle is an aggregate bin or a sand-aggregate bin, and the periphery is a powder bin.
Example 3
In this embodiment, the structure of the bin layer, the ingredient layer and the stirring layer of the stirring building is the same as that of embodiment 1, as shown in fig. 6, the arrangement manner of the bins is rectangular and uniform, wherein the bin bodies of the powder bin 2 and the aggregate bin 6 are both cylindrical and have the same or similar size, the number of the bins is S, the number of the powder bins is N, the number of the aggregate bins or the sand and stone bins is M, wherein S is 6, N is 5, and M is 1.
In this embodiment, the multiple rows and columns of bins are arranged in a semi-enclosed structure, the middle is an aggregate bin or a sand-aggregate bin, and the periphery is a powder bin. Example 4
In this embodiment, the structure of the bin layer, the ingredient layer and the stirring layer of the stirring building is the same as that of embodiment 1, as shown in fig. 7, the arrangement manner of the bins is rectangular and uniform, wherein the bin bodies of the powder bin 2 and the aggregate bin 6 are both cylindrical and have the same or similar size, the number of the bins is S, the number of the powder bins is N, the number of the aggregate bins or the sand and stone bins is M, wherein S is 9, N is 7, M is 3 or S is 6, N is 4, M is 2 or S is 6, N is 3, and M is 3.
In this embodiment, the aggregate bins in multiple rows and columns are arranged in a linear structure, and the rest are powder bins.
Example 5
In this embodiment, the structure of the bin layer, the ingredient layer and the stirring layer of the stirring building is the same as that of embodiment 1, as shown in fig. 8, the arrangement manner of the bins is rectangular and uniform, wherein the bin bodies of the powder bin 2 and the aggregate bin 6 are both cylindrical and have the same or similar size, the number of the bins is S, the number of the powder bins is N, the number of the aggregate bins or the sand and stone bins is M, wherein S is 6, N is 3, M is 3 or S is 9, N is 7, M is 3 or S is 6, N is 4, and M is 2.
In this embodiment, the plurality of rows and columns of aggregate bins are arranged in an "L" shape, and the rest are powder bins.
Example 6
In this embodiment, the structure of the bin layer, the ingredient layer and the stirring layer of the stirring building is the same as that of embodiment 1, as shown in fig. 9, the arrangement manner of the bins is rectangular and uniform, wherein the bin bodies of the powder bin 2 and the aggregate bin 6 are both cylindrical and have the same or similar size, the number of the bins is S, the number of the powder bins is N, the number of the aggregate bins or the sand and stone bins is M, wherein S is 9, N is 5, and M is 4.
In this embodiment, the plurality of rows and columns of aggregate bins are arranged in a T-shape, and the rest are powder bins.
Example 7
In this embodiment, the structure of the bin layer, the ingredient layer and the stirring layer of the stirring building is the same as that of embodiment 1, as shown in fig. 10, the arrangement manner of the bins is rectangular and uniform, wherein the bin bodies of the powder bin 2 and the aggregate bin 6 are both cylindrical and have the same or similar size, the number of the bins is S, the number of the powder bins is N, the number of the aggregate bins or the sand and stone bins is M, wherein S is 9, N is 5, and M is 4.
In this embodiment, the plurality of rows and columns of aggregate bins are arranged in a rectangular shape, and the rest are powder bins.
The utility model discloses a put feed bin distribution structure of top formula stirring building when using, material loading sealing-tape machine 14 with the aggregate transport to the transition in connecing fill 15 and will correspond the premix according to 6 positions in feed bin and carry aggregate bin 6 through removing branch material sealing-tape machine 18 with the premix. When concrete is needed, the powder bin 2 and the aggregate bin 6 are opened, aggregate is conveyed into the aggregate weighing device 7 through the sand batching adhesive tape machine 19, powder is conveyed into the powder weighing device 8 through the air chute 20, meanwhile, water in the water tank 22 flows into the water weighing device 9, after the weighing device weighs powder, aggregate and water with corresponding proportion and quality, the sand batching adhesive tape machine 19, the air chute 20 and the water tank 22 stop feeding, then the material in the weighing device is unloaded into the concrete mixer 12, the concrete mixer 12 is opened at the same time, the manufactured concrete naturally flows into the concrete mixing transport vehicle 21 through the concrete discharging hopper 13, and the concrete production is completed in the mixing plant.
Example 8
In this embodiment, various forms of expansion can be made according to the above examples 1 to 7, as shown in fig. 11, the expansion type is to expand the bins arranged in the semi-surrounding type bin arrangement manner based on the semi-surrounding type bin arrangement manner, specifically, the expansion type is to expand the bins with S9, N7, and M2 based on the semi-surrounding type bin with S9, N7, and M2, or expand the bins with S6, N5, and M1 based on the semi-surrounding type bin with S6, N5, and M1, so as to simplify the structure, save space, and design more conveniently and quickly.
Example 9
In this embodiment, various types of expansion can be made according to the above examples 1 to 7, as shown in fig. 12, the expansion type is a "L" type bin arranged by expanding an "L" type bin arrangement manner on the basis of a semi-surrounding type bin arrangement manner, specifically, an "L" type bin having S6, N4, and M2 is expanded on the basis of a semi-surrounding type bin having S9, N7, and M2, or an "L" type bin having S4, N3, and M1 is expanded on the basis of a semi-surrounding type bin having S6, N5, and M1, which simplifies the structure, saves space, and is more convenient and faster to design.
Example 10
In this embodiment, various types of expansion can be made according to the above examples 1 to 7, as shown in fig. 13, the expansion type is a bin that is arranged in an "L" type bin arrangement manner and is expanded on the basis of the "L" type bin arrangement manner, specifically, the "L" type bin is expanded on the basis of the "L" type bin in which S is 6, N is 4, and M is 2, or the "L" type bin is expanded on the basis of the "L" type bin in which S is 4, N is 3, and M is 1, so that the structure is simplified, the space is saved, and the design is more convenient and faster.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a put feed bin distribution structure of top formula stirring building which characterized in that: the stirring building comprises a material bin layer arranged at the top of the integrated frame; arranging a plurality of bins on the bin layer; the storage bins are arranged on the same plane at the top of the integrated frame; the shape and the size of the plurality of bins are the same or close to each other; the storage bins comprise powder bins, aggregate bins and/or sand bins.
2. The storage bin distribution structure of the overhead stirring floor according to claim 1, wherein: the shape of a plurality of silos is cylindrical, and the diameter of a plurality of silos is the same or close.
3. The distribution structure of the storage bins of the overhead mixing plant according to claim 1, wherein a plurality of small storage bins are provided between the plurality of storage bins for storing water, liquid additives or powdery additives.
4. The storage bin distribution structure of the overhead stirring floor according to claim 1, wherein: the plurality of bins are arranged in multiple rows and multiple columns, and are uniformly arranged in a rectangular shape on the horizontal section.
5. The storage bin distribution structure of the overhead stirring floor according to claim 1, wherein: the number of the bins is S, the number of the powder bins is N, the number of the aggregate bins or the sand and stone bins is M, wherein S is 6-9, N is 3-7, and M is 1-4.
6. The storage bin distribution structure of the overhead stirring floor according to claim 4, wherein: the first column and the last column of the multiple columns of bins are powder bins, and the middle column is an aggregate bin or an aggregate bin; or the first row and the last row of the multiple rows of bins are powder bins, and the middle row is an aggregate bin or a sand bin.
7. The storage bin distribution structure of the overhead mixing plant according to claim 4, wherein: a plurality of rows and a plurality of columns of bins are arranged into a semi-surrounding structure, the middle is an aggregate bin or an aggregate bin, and the periphery is a powder bin; or the middle is a powder bin, the periphery is an aggregate bin or a sand-aggregate bin, and the periphery is a powder bin.
8. The storage bin distribution structure of the overhead stirring floor according to claim 4, wherein: the bin arrangement mode is an integral rectangular arrangement, the powder bins are arranged in an L shape, and the rest parts are positioned in the aggregate bins or the sand and stone bins; or the aggregate bins or the sand and stone bins are arranged in an L shape, and the rest part of the aggregate bins or the sand and stone bins are arranged in the powder bins.
9. The storage bin distribution structure of the overhead stirring floor according to claim 4, wherein: the bin arrangement mode is that aggregate bins or sand and stone bins are arranged in an integral rectangle to form a T-shaped structure, and the rest parts are powder bins.
CN202020506144.5U 2020-04-09 2020-04-09 Storage bin distribution structure of top-mounted stirring building Active CN212707417U (en)

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Application Number Priority Date Filing Date Title
CN202020506144.5U CN212707417U (en) 2020-04-09 2020-04-09 Storage bin distribution structure of top-mounted stirring building

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Application Number Priority Date Filing Date Title
CN202020506144.5U CN212707417U (en) 2020-04-09 2020-04-09 Storage bin distribution structure of top-mounted stirring building

Publications (1)

Publication Number Publication Date
CN212707417U true CN212707417U (en) 2021-03-16

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