CN216103922U - Large-scale double-deck horizontal cement bin - Google Patents
Large-scale double-deck horizontal cement bin Download PDFInfo
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- CN216103922U CN216103922U CN202122268128.4U CN202122268128U CN216103922U CN 216103922 U CN216103922 U CN 216103922U CN 202122268128 U CN202122268128 U CN 202122268128U CN 216103922 U CN216103922 U CN 216103922U
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Abstract
The application relates to the technical field of cement bins, in particular to a large double-layer horizontal cement bin which comprises a first cement bin, wherein one side of the first cement bin is provided with a first opening; a second cement silo having a second opening at one side thereof; and the sealing surface is arranged on one side, far away from the second opening, of the second cement bin, wherein the length and the width of the sealing surface are respectively smaller than those of the first opening. This application is through the setting that second cement storehouse is less than first cement storehouse specification for first cement storehouse can be put into in the second cement storehouse when the transportation, need not extra transport means and transports, makes the holistic transportation in cement storehouse comparatively easy, has reduced the cost of transportation.
Description
Technical Field
The application relates to the technical field of cement bins, in particular to a large double-layer horizontal cement bin.
Background
Current cement bin generally is bilayer structure, and upper and lower layer size and specification is the same, has higher storage capacity after the equipment is accomplished, but in actual transportation, bilayer cement bin generally need carry out the split, transports respectively, has increased the cost of transportation like this, and it is very inconvenient to transition.
Disclosure of Invention
To the not enough of prior art existence, this application provides a large-scale double-deck horizontal cement bin, through the setting that second cement bin is less than first cement bin specification for first cement bin can be put into to the second cement bin when the transportation, need not extra transport means and transports, makes the holistic transportation in cement bin comparatively easy, has reduced the cost of transportation.
The above application purpose of the present application is achieved by the following technical solutions:
a large double-deck horizontal cement silo, comprising:
a first cement silo having a first opening at one side thereof;
a second cement silo having a second opening at one side thereof;
the sealing cover surface is arranged on one side, far away from the second opening, of the second cement bin;
wherein, the length and the width of the sealing surface are respectively smaller than the length and the width of the first opening.
Optionally, the second cement bin includes a square frame and a cover plate, the second opening is located on one side of the square frame, the cover plate is fixedly connected to one side, away from the second opening, of the square frame, and an outer side surface is arranged on the outer side of the square frame.
Optionally, the outer side surface of the frame is perpendicular to the plane of the second opening.
Optionally, an included angle between the outer side surface of the square-shaped frame and a plane where the second opening is located is an acute angle.
Optionally, the sealing cover plate is cuboid, and the sealing cover plate is parallel to the plane where the second opening is located.
Optionally, the cover sealing plate is in a shape of a frustum of a pyramid, and one side of the cover sealing plate, which is far away from the second opening, is parallel to the plane where the second opening is located.
Optionally, one side of the second cement bin, which is close to the second opening, is fixedly connected with a loop, and the length and the width of the loop are both greater than those of the first opening.
Optionally, the length and the width of the loop are respectively equal to those of the side of the first cement bin with the first opening.
In summary, the present application includes at least one of the following beneficial technical effects:
1. the second cement bin is smaller than the first cement bin in specification, so that the second cement bin can be placed into the first cement bin during transportation, and an additional transportation tool is not needed for transportation, so that the whole cement bin is easy to transport, and the transportation cost is reduced;
2. through the setting of circle shape circle, when second open-ended one side is kept away from in second cement storehouse inserts first cement storehouse, the relative position in second cement storehouse can be restricted to the circle shape circle, avoid second cement storehouse to submerge first cement storehouse completely, make after the transition finishes, operating personnel can be easier take out second cement storehouse, finish in cement storehouse transition, and operating personnel takes out the back with second cement storehouse from first cement storehouse, operating personnel can place second cement storehouse one side that has the second open-ended towards first cement storehouse one side that has first open-ended, the border of first open-ended one side in first cement storehouse can be oppressed to the circle shape circle this moment, thereby make placing on first cement storehouse that second cement storehouse can be stable.
Drawings
FIG. 1 is an exploded schematic view of an embodiment of the present application;
FIG. 2 is an exploded schematic view of an embodiment of the present application;
FIG. 3 is a schematic front view of an embodiment of the present application;
FIG. 4 is a schematic view of a loop according to an embodiment of the present application.
Reference numerals: 11. a first cement silo; 12. a first opening; 21. a second cement silo; 22. a second opening; 23. a capping surface; 24. a frame in a shape of a Chinese character 'hui'; 25. sealing the cover plate; 26. an outer side surface; 27. a loop-shaped ring.
Detailed Description
The present application is described in further detail below with reference to the attached drawings.
In order to facilitate a clearer understanding of the technical solutions presented in the embodiments of the present application, a brief description is first made of an existing cement silo.
The existing cement bin requires a large capacity of storing cement, and generally adopts a double-layer design to improve the height of the cement bin, so that the overall storage capacity of the assembled cement bin is improved.
Generally speaking, the top storehouse and the bottom storehouse size of current double-deck cement storehouse are equal, need separately transport when the transportation, if adorn on a haulage vehicle, then exceed the elevation easily, then need increase corresponding cost of transportation when separately transporting, and it is very inconvenient to transition.
Referring to fig. 1 to 3, a large double-deck horizontal cement silo disclosed in the embodiments of the present application includes a first cement silo 11 having a first opening 12 on one side, and a second cement silo 21 having a second opening 22 on one side, where the second cement silo 21 has a capping surface 23 on the side away from the second opening 22, and the length and width of the capping surface 23 are respectively smaller than those of the first opening 12.
It should be clear that the capping surface 23 may be a plane or a curved surface, and the "length and width of the capping surface 23" means: the length and width of the capping surface 23 projected onto the plane of the second opening 22.
Further description is provided below with respect to specific usage scenarios.
The length and the width of the cover surface 23 are respectively smaller than those of the first opening 12, so that the second cement bin 21 can enable one side with the cover surface 23 to face the first opening 12, and the side, with the cover surface 23, of the second cement bin 21 can be naturally inserted into the first cement bin 11, therefore, when in transportation, the first cement bin 11 and the second cement bin 21 can be transported integrally in a nested mode, no additional transportation tool is needed for transportation, and the transportation cost is reduced.
Compared with the way that two cement bins with the same specification are stacked, the side, which is provided with the cover sealing surface 23, of the second cement bin 21 in the embodiment of the present application can be understood as one end, and can be inserted into the first cement bin 11, so that the overall height of the first cement bin 11 and the second cement bin 21 in the nested state is smaller than the overall height of the two cement bins stacked, so that the first cement bin 11 and the second cement bin 21 in the nested state can meet the limitation of the road bridge elevation on the transportation road.
On the whole, this application embodiment is through the setting that second cement storehouse 21 is less than 11 specifications in first cement storehouse for first cement storehouse 11 can be put into to second cement storehouse 21 when the transportation, need not extra transport means and transports, makes the holistic transportation in cement storehouse comparatively easy, has reduced the cost of transportation.
In view of the shape of the actual cement silo, generally, the existing cement silo is generally a cylinder or a polygonal prism, and in order to implement the technical solution shown in the embodiment of the present application, the first cement silo 11 and the second cement silo 21 should have the same posture, if the first cement silo 11 is a cylinder, the second cement silo 21 should also be a cylinder, and the length and the width of the second cement silo 21 refer to the diameter of the second cement silo 21; if the first cement silo 11 is a polygonal prism with X number of edges, the second cement silo 21 should also be a polygonal prism with X number of edges, and the internal angle number of the second cement silo 21 should also correspond to the internal angle number of the first cement silo 11 one by one.
As a possible embodiment of the present application, the second cement bin 21 includes a square frame 24 and a cover plate 25, the second opening 22 is located on one side of the square frame 24, the cover plate 25 is fixedly connected to one side of the square frame 24 away from the second opening 22, and an outer side of the square frame 24 has an outer side 26.
The hollow and open-ended frame 24 will tend to have openings on two opposite sides, wherein the opening on one side is enclosed by the cover plate 25 and the opening on the other side is the second opening 22.
To achieve the technical means shown in the embodiments of the present application, the length and width of the cover plate 25 should be smaller than those of the first opening 12, respectively.
According to a specific use scene, the space inside the square frame 24 can store cement ash, and corresponding third, fourth and more cement bins can be sequentially nested in the second cement bin 21, so that the larger cement bins can be conveniently transported.
The shape of the closure panel 25 can be generally described as follows:
firstly, the cover plate 25 is rectangular, the plane of the cover plate 25 is parallel to the plane of the second opening 22, and the cement bin applied to the concrete mixing plant is generally rectangular, so the cover plate 25 needs to be matched with the rectangular cement bin;
secondly, the cover plate 25 is in a frustum pyramid shape, one side of the cover plate 25, which is far away from the second opening 22, is parallel to the plane of the second opening 22, generally speaking, the concrete mixing plant is placed outdoors, and the top of the cover plate 25 in the frustum pyramid shape has a slope, so that rain and snow can be quickly removed from the cover plate 25, and the cover plate 25 is prevented from being too heavy;
third, the cover plate 25 is conical or circular truncated cone, and generally, a cement silo applied to a concrete mixing plant is cylindrical, so the bottom of the cover plate 25 should also be circular to better match the cylindrical cement silo.
As a possible embodiment of the present application, the outer side of the frame 24 has an outer side 26.
Since the frame 24 is open at both ends and has an opening, the aforementioned outer side surface 26 refers to: the frame 24 is formed on all sides except for two sides having openings.
In actual conditions, the state of the outer side surface 26 can be classified into the following two cases:
the outer side surfaces 26 of the first and second frames 24 are perpendicular to the plane of the second opening 22; in this case, the length and width of the side of the frame 24 having the second opening 22 should be equal to the length and width of the cover surface 23, respectively, so that the side of the second cement bin 21 having the cover surface 23 can be inserted into the first opening 12;
in this case, the size of the second opening 22 is larger than that of the covering surface 23, if the side of the second opening 22 of the frame 24 is circular, the frame 24 is conical or truncated cone as a whole, and if the side of the second opening 22 of the frame 24 is polygonal, the frame 24 is multi-prismatic as a whole.
Obviously, the second embodiment is easier to embed the second cement silo 21 into the first cement silo 11 than the first embodiment, but the cement ash storage capacity is somewhat reduced.
Referring to fig. 4, as a possible embodiment of the present invention, a loop 27 is fixed to the second cement silo 21 near the second opening 22, and the length and width of the loop 27 are both greater than those of the first opening 12.
In conjunction with a specific usage scenario, the loop 27 has two functions:
firstly, when one side of the second cement bin 21, which is far away from the second opening 22, is inserted into the first cement bin 11, the edge of the loop 27 can press the edge of one side of the first opening 12 of the first cement bin 11, so that the relative position of the second cement bin 21 is limited, the second cement bin 21 is prevented from completely sinking into the first cement bin 11, and an operator can more easily take out the second cement bin 21 after the transition is finished;
secondly, after the cement silo is transferred, and after the operator takes out the second cement silo 21 from the first cement silo 11, the operator can place the side of the second cement silo 21 with the second opening 22 toward the side of the first cement silo 11 with the first opening 12, and at this time, the clip 27 can press the edge of the side of the first opening 12 of the first cement silo 11, so that the second cement silo 21 can be stably placed on the first cement silo 11.
As a possible embodiment of the present application, the length and width of the loop 27 are equal to the length and width, respectively, of the side of the first cement silo 11 having the first opening 12.
The expression "the length and width of the loop 27 are equal to the length and width of the first cement silo 11 side having the first opening 12" means that the size of the loop 27 is equal to the size of the first cement silo side having the first opening 12:
if the first cement silo 11 has a circular cross-section, the diameter of the loop 27 should be equal to the diameter of the side of the first cement silo 11 having the first opening 12;
if the first cement silo 11 has a rectangular cross section, the length and width of the loop 27 should be equal to the length and width of the first cement silo 11 on the side having the first opening 12;
if the cross section of the first cement silo 11 is polygonal, wherein the number of sides is greater than 4, the loop 27 should also be polygonal, and the number of sides, each side length and each inner angle of the loop 27 should be equal to the number of sides, each side length and each inner angle of the side of the first cement silo 11 having the first opening 12, respectively.
The technical means described herein aim to align the position of the loop 27 and the edge of the first cement silo 11 with the first opening 12 only by aligning the edge of the loop 27 and the edge of the first cement silo 11 with the first opening 12 when the size of the loop 27 is equal to the size of the first opening 12 of the first cement silo 11, which is convenient for the operator to operate.
The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (8)
1. The utility model provides a large-scale double-deck horizontal cement bin which characterized in that includes:
a first cement silo (11) having a first opening (12) at one side thereof;
a second cement silo (21) having a second opening (22) at one side thereof;
the sealing surface (23) is arranged on one side, far away from the second opening (22), of the second cement bin (21);
wherein the length and width of the capping surface (23) are less than the length and width of the first opening (12), respectively.
2. The large double-layer horizontal cement silo according to claim 1,
the second cement bin (21) comprises a square frame (24) and a cover plate (25), the second opening (22) is located on one side of the square frame (24), the cover plate (25) is fixedly connected to one side, away from the second opening (22), of the square frame (24), and the outer side of the square frame (24) is provided with an outer side face (26).
3. The large double-layer horizontal cement silo according to claim 2,
the outer side surface (26) of the clip frame (24) is perpendicular to the plane of the second opening (22).
4. The large double-layer horizontal cement silo according to claim 2,
the included angle between the outer side surface (26) of the square-shaped frame (24) and the plane where the second opening (22) is located is an acute angle.
5. The large double-layer horizontal cement silo according to claim 2,
the sealing cover plate (25) is cuboid, and the plane where the sealing cover plate (25) and the second opening (22) are located is parallel.
6. The large double-layer horizontal cement silo according to claim 2,
the sealing cover plate (25) is in a frustum pyramid shape, and one side, away from the second opening (22), of the sealing cover plate (25) is parallel to the plane where the second opening (22) is located.
7. A large double-deck horizontal cement silo according to any one of claims 1-6,
one side of the second cement bin (21) close to the second opening (22) is fixedly connected with a loop (27), and the length and the width of the loop (27) are both greater than those of the first opening (12).
8. The large double-deck horizontal cement silo according to claim 7,
the length and the width of the loop (27) are respectively equal to those of one side of the first cement bin (11) with the first opening (12).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122268128.4U CN216103922U (en) | 2021-09-17 | 2021-09-17 | Large-scale double-deck horizontal cement bin |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122268128.4U CN216103922U (en) | 2021-09-17 | 2021-09-17 | Large-scale double-deck horizontal cement bin |
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CN216103922U true CN216103922U (en) | 2022-03-22 |
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CN202122268128.4U Active CN216103922U (en) | 2021-09-17 | 2021-09-17 | Large-scale double-deck horizontal cement bin |
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- 2021-09-17 CN CN202122268128.4U patent/CN216103922U/en active Active
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