JP2022105329A - Cement silo - Google Patents

Abstract

To provide a cement silo that is relatively easy to transport, does not require a relatively large installation space, and has excellent maintainability inside an inlet of a hopper or silo container.SOLUTION: There is provided a cement silo, including: a holding frame (9) that holds a side of a silo container with an octagonal columnar three-dimensional frame; and multiple inspection stands (10) suspended so that they can be deployed and stored on each side of the octagonal columnar three-dimensional frame. Then, the three-dimensional frame of the holding frame (9) is formed in a substantially regular octagonal columnar shape, and surrounds a cylindrical portion of the silo container concentrically in a plan view.SELECTED DRAWING: Figure 3

Description

It relates to a cement silo consisting of a cement hopper that breaks a cement bag, puts in and stores cement, and discharges it by feeder transportation, and a support frame that supports the cement hopper. In particular, it relates to a small and portable cement silo that can be transported by truck and installed at a civil engineering site.

Conventionally, the following are disclosed as a mixer or a container for transporting powder equipped with a cement hopper.

Patent Document 1 relates to a powder transport container, more specifically, a powder transport container including a container body and a flexible bag forming member mounted removably inside the container body. The powder transport container 100 includes a container main body 10, a bag forming member 20 removably mounted in the container main body 10, and an opening / closing mechanism 30. The bag forming member 20 is formed of a flexible synthetic resin sheet having an open upper end and a lower end, and the opening / closing mechanism 30 can open / close a part of the lower region of the bag forming member 20 (Patent Document 1). ).

Patent Document 2 relates to a mixer for kneading powders and granules such as cement with a kneading liquid such as water. This mixer has a hopper main body at the upper part of the mixer main body, and the mixer support frame is detachably configured by the upper support frame and the lower support frame. A hopper body composed of a plurality of quantitative hoppers is attached to the upper support frame, a mixer body is placed on the lower support frame, and the cutout port of the identification amount type hopper can be freely attached to and detached from the input port on the upper surface of the mixer body. It is connected (Patent Document 2).

Japanese Patent Application Laid-Open No. 2003-002391 Special Publication No. 59-20377

However, the mixer or the container for transporting powder has to be large in order to secure the strength, which makes it difficult to transport and requires a relatively large installation space. Further, since the input port of the hopper or silo container is located at a high place (above the ground plane), the internal maintainability is lacking.

In order to solve the above problems, the cement silo of the present invention shall take the following measures. In addition, the numbers, alphabets, or character strings in combinations thereof shown in parentheses following each configuration name are symbols added for convenience in order to understand the invention with reference to the drawings, and the concepts and forms are given according to the character strings. Is not limited to.

[1] The cement silo of the present invention is
A cylindrical silo container (1) in which a cylindrical part and an inverted conical part are connected vertically, and
A horizontal feeder (2) that is connected to the lower end of the conical part of the silo container and communicates with the inside of the silo container.
A vertical conveyor (3) that is connected to the side of the silo container and communicates internally with the horizontal feeder.
Multiple (2) vibration motors (4) mounted at equal intervals on the outer peripheral surface of the inverted conical part of the silo container, and
Multiple (3) load cells (5) mounted at equal intervals on the outer peripheral surface of the cylindrical portion of the silo container, and
A four-blade-shaped bag-breaking blade (6) mounted in a cylindrical portion of a silo container in a cross-shaped (and inverted V-shaped side view) structure.
A holding frame (9) that holds the side of the silo container with an octagonal columnar three-dimensional frame, and
Each side surface of the octagonal pillar of the three-dimensional frame (facing the separation direction) is provided with a plurality of (two) inspection tables (10) suspended so as to be deployable and storable.

And the holding frame (9) is
It is provided with a three-dimensional frame (92) that is configured in a substantially regular octagonal columnar shape and surrounds the circumference of the cylindrical portion of the silo container concentrically in a plan view.
Each inspection table (10) has a plurality of separated sides of a regular octagonal columnar three-dimensional frame (that is, a plurality of sides of the eight sides of the regular octagonal column excluding adjacent surfaces) (more preferably, in a plan view). Each inspection table can be suspended along each side surface of a regular octagonal columnar three-dimensional frame (stored state). It is a feature.

According to the above configuration, the silo container and the silo feeder can be stably supported in a compact installation space by surrounding the cylinder of the silo container concentrically in a plan view with an octagonal three-dimensional frame. In addition, since the three-dimensional frame is octagonal columnar and the inspection table is foldable on the side surface of the octagonal column, it is compact and easy to carry together with the silo container composed of the columnar portion. Furthermore, by providing multiple inspection tables on each side of the regular octagonal columnar three-dimensional frame, the input port of the hopper can be inspected from multiple circumferential directions, which is excellent in maintainability and ease of installation adjustment. rice field. In particular, the inspection table is provided in a size corresponding to the side surface of the regular octagonal columnar three-dimensional frame, so that it can be mounted compactly while ensuring the required size of the table surface of the inspection table, and it is compact during transportation or installation. It is not damaged.

Further, as shown in Examples described later, a setting board (13) having a display unit capable of displaying the cement discharge amount and the residual storage amount, and
It is preferable to provide a container lid (14) that covers the upper opening of the silo container.

[2] Each of the inspection tables is provided with a base plate, a locking portion, and a fixed leg portion, and the locking portion at the end of the base plate is a horizontal frame portion (regular octagonal) of a three-dimensional frame having a regular octagonal columnar shape. It can be locked to each of the multiple sides of the shape), and the base plate can be stored along each side surface (stored state) and the base plate can be horizontally deployed (deployed state). It is characterized by.
By storing the inspection table when it is not in use or during transportation, it becomes a compact form without extra lateral overhangs, and it is possible to install the inspection table at any location in the expanded state as needed. ..

The inspection table of the embodiment described later is not a removable type that is removed from the three-dimensional frame and stored, but is a foldable type in which all the constituent members of the inspection table can be folded and stored in the side surface of the three-dimensional frame. Further, it is locked and fixed to the horizontal frame portion connecting the adjacent vertical frames of the octagonal columnar three-dimensional frame, thereby increasing the rigidity of the octagonal columnar three-dimensional frame and ensuring the strength.

[3] The cement silo is
The silo container (1), the horizontal feeder (2), the plurality of vibration motors (4), and the bag breaking blade (6) are connected to each other, and the horizontal feeder (2) and the vertical conveyor ( 3) are connected to each other to integrally form the silo feeder (100).
On the peripheral side of the silo container (1), a plurality of stay rods (50) for bearing the weight of the entire silo feeder (100) are fixed at fixed positions at equal intervals in the circumferential direction.
Further, in the holding frame (9), a plurality of single beam type load cells (5) corresponding to the number of stay rods (50) are placed on the upper frame (octagonal side) of the octagonal columnar three-dimensional frame, respectively. Fix horizontally along each side of the upper frame in the direction along (the direction of the cylindrical part in the plane tangential direction).
Each stay rod is brought into corresponding contact with the detector of each load cell (5) to support the silo feeder (100) via a plurality of load cells arranged along each side of the octagonal upper frame. It is a feature.

With the above configuration, the plurality of load cells are compactly spaced along the sides of the octagonal upper frame of the three-dimensional frame without protruding significantly from the three-dimensional frame. Then, the stay rods separated and fixed to the peripheral portion of the silo feeder come into contact with each of the plurality of load cells and are supported in the octagonal columnar three-dimensional frame. Therefore, it is possible to support the measurement of a stable silo feeder in a space-saving manner.

This load cell is supported along an octagonal columnar frame for stability and compactness, unlike the conventional cement silo in which multiple rod-shaped load cells are arranged in the radial direction in a plan view. It is excellent in terms of top and function.

[4] The inspection table is attached to a plurality of specific side surfaces (two sides) of the side surfaces of the regular octagonal columnar three-dimensional frame of the holding frame, and is also attached.
The load cell is characterized in that it is attached to each of the specific adjacent side surfaces (three surfaces) adjacent to each of the specific plurality of side surfaces to which the inspection table is attached, among the side surfaces of the regular octagonal columnar three-dimensional frame of the holding frame. ..

[5] The holding frame is a three-dimensional frame having a regular octagonal upper frame, a regular octagonal lower frame, and a regular octagonal columnar frame composed of a columnar vertical frame vertically connecting the upper frame and the lower frame (9). When,
An extended frame base (911) formed by extending outward from a part of a regular octagonal lower frame to form a three-sided frame is integrally configured.
The three-dimensional frame houses the silo container and the horizontal feeder in its own octagonal columnar frame.
The stretched frame base is characterized in that it surrounds a vertical conveyor (and a tip of a horizontal feeder) in its own three-sided frame-shaped plan view frame.

[6] The bag-breaking blade (6) is used for hanging at a specific location of one of the four-blade shapes (one inside the silo container and fixed at a position near the vertical conveyor). A long hole (61H) is provided,
The position of the center of gravity (G) of the entire silo feeder (with the lid removed) coincides with a specific location provided with the elongated hole (61H).

Further, as shown in an embodiment (FIG. 7) described later, when the silo feeder is suspended by a long hole (61H) for suspension, the vertical conveyor and the silo container are suspended in a vertically balanced posture. It is characterized by being done.

The holding frame (9) is
A three-dimensional frame (92), which is composed of a substantially regular octagonal columnar frame and surrounds the cylindrical portion of the silo container concentrically in a plan view,
In the three-dimensional frame at the lower end of the three-dimensional frame (to be configured in common with a part of the three-dimensional frame and laterally extended from this three-dimensional frame to hold the horizontal feeder and the vertical conveyor in the frame), a part of a substantially regular octagonal columnar column. It is preferable that the frame is integrally formed with the stretched frame base (91) which is framed in a deformed octagonal shape that is overhanging and deformed to the side.

By taking the above measures, it is possible to form a compact form while ensuring strength, so that it is relatively easy to transport, and it is possible to accommodate or arrange it in a relatively small installation space. Furthermore, since there are multiple inlets for the hopper and silo container at high places (above the ground plane), the maintainability of high places such as the inside of the container is excellent.

Front view of the cement silo of Example 1 (state where the inspection table is raised horizontally) Side view of the cement silo of Example 1 (state where the inspection table is raised horizontally) Plan view of the cement silo of Example 1 (state in which the inspection table is raised horizontally) Plan view of the cement silo of Example 1 (corrected to the state where the inspection table is stored) An exploded perspective view of the upper part of the silo container and the crushing cutter. Partial enlarged view of the side surface showing the stay rod and load cell of the side surface of the silo container and the upper frame. Front view of the silo feeder suspended by a wire. Enlarged view of the monitor image. The plan layout view of the cement silo of Example 2. The plan layout view of the cement silo of Example 3.

Hereinafter, examples of embodiments for carrying out the invention will be described together with drawings shown as examples.
[1] The cement silo of Example 1 of the present invention shown in FIGS. 1 to 8 is
A cylindrical silo container (1) in which a cylindrical part and an inverted conical part are connected vertically, and
A horizontal feeder (2) that is connected to the lower end of the conical part of the silo container and communicates with the inside of the silo container.
A vertical conveyor (3) that is connected to the side of the silo container and communicates internally with the horizontal feeder.
Multiple (2) vibration motors (4) mounted at equal intervals on the outer peripheral surface of the inverted conical part of the silo container, and
Multiple (3) load cells (5) mounted at equal intervals on the outer peripheral surface of the cylindrical portion of the silo container, and
A four-blade-shaped bag-breaking blade (6) mounted in a cylindrical portion of a silo container in a cross-shaped plan view and an inverted V-shape in a side view.
A mesh frame (7) having a grid-like network inside a circular frame attached to the lower end position of the attachment portion of the bag-breaking blade (6) in the cylindrical portion of the silo container.
A holding frame (9) that holds the side of the silo container with an octagonal columnar three-dimensional frame, and
Of the sides of the octagonal pillar of the three-dimensional frame, an inspection table (10) that can be deployed and stored is suspended on each of the two sides facing away from each other.
Further, as shown in Examples described later, a setting board (13) having a display unit capable of displaying the cement discharge amount and the residual storage amount, and a setting board (13).
It is provided with a container lid (14) that covers the upper opening of the silo container.

As shown in FIGS. Of the square frames, inspection tables are provided on two three-dimensional frames that are symmetrical to each other so that they can be deployed horizontally. By providing an inspection table on two symmetrical sides of the regular octagonal prism of the three-dimensional frame, the inside or the outer periphery of the silo container can be inspected without bias. Further, by enclosing the vertical conveyor (32) projecting from the side of the silo container by the portion of the frame base frame extending outward to form the frame, the device configuration including the silo container and the feeder device can be compacted. It is supposed to be surrounded by.

Specifically, a three-dimensional frame (92) having a substantially regular octagonal columnar frame and concentrically surrounding the cylindrical portion of the silo container in a plan view,
An extended frame base (911) having a three-sided frame by sharing the five consecutive sides of the octagonal frame portion at the bottom of the three-dimensional frame (92) with the three-dimensional frame (92) and extending the remaining three sides outward. And are integrally configured (see FIGS. 3 and 7).

Each inspection table (10) has a plurality of separated sides of a regular octagonal columnar three-dimensional frame (that is, a plurality of sides of the eight sides of the regular octagonal column excluding adjacent surfaces) (more preferably, in a plan view). One unit is provided for each side surface at a symmetrical position in a plan view, which is equally spaced apart from each other in the circumferential direction. In each inspection table, a rectangular base plate corresponding to the side width of the three-dimensional frame is hinged to one side surface of the three-dimensional frame at a predetermined height by a hinge portion 10H provided along the rectangular upper side of the base plate. Rectangle. Further, leg portions 10L are provided on both sides of the rectangle of the base plate so as to be foldable. In the deployed state of the inspection table, the base plate is maintained in a horizontal state by locking the tip 10LE of the leg portion 10L to the vertical frame of the three-dimensional frame (see FIGS. 1, 2, and 3). From this unfolded state, the legs 10L can be folded and the base plate can be hinged with the hinge portion 10H so that the legs can be stored along each side surface of the regular octagonal columnar three-dimensional frame (storage state) (FIG. 4, FIG. See FIG. 7).

According to the above configuration, the silo container and the silo feeder can be stably supported in a compact installation space by surrounding the cylinder of the silo container concentrically in a plan view with an octagonal three-dimensional frame. In addition, since the three-dimensional frame is octagonal columnar and the inspection table is foldable on the side surface of the octagonal column, it is compact and easy to carry together with the silo container composed of the columnar portion. Furthermore, by providing multiple inspection tables on each side of the regular octagonal columnar three-dimensional frame, the input port of the hopper can be inspected from multiple circumferential directions, which is excellent in maintainability and ease of installation adjustment. rice field. In particular, the inspection table is provided in a size corresponding to the side surface of the regular octagonal columnar three-dimensional frame, so that it can be mounted compactly while ensuring the required size of the table surface of the inspection table, and it is compact during transportation or installation. It is not damaged.

[Inspection table] Each inspection table (10) includes a base plate, a locking portion, and a fixed leg portion, and the locking portion (10LE) at the end of the base plate is a regular octagonal columnar three-dimensional frame. It is locked to the horizontal frame part (multiple sides of the regular octagonal shape), and the base plate is stored along each side surface (Fig. 4 and Fig. 7), and the base plate is expanded horizontally. It is characterized in that it can be in the expanded state (FIG. 1, FIG. 2, FIG. 3).

By storing the inspection table when it is not in use or during transportation, it becomes a compact form without extra lateral overhangs, and it is possible to install the inspection table at any location in the expanded state as needed. ..

The inspection table of the embodiment described later is not a removable type that is removed from the three-dimensional frame and stored, but is a foldable type in which all the constituent members of the inspection table can be folded and stored in the side surface of the three-dimensional frame. Further, it is locked and fixed to the horizontal frame portion connecting the adjacent vertical frames of the octagonal columnar three-dimensional frame, thereby increasing the rigidity of the octagonal columnar three-dimensional frame and ensuring the strength.

[Frame support structure of silo feeder]
In the cement silo, the lower half of the silo feeder (100) is surrounded by an octagonal pillar frame-shaped three-dimensional frame, and via a plurality of load cells arranged on the frame sides of the octagonal pillar frame-shaped three-dimensional frame. Therefore, the structure is such that the points are supported at the plurality of arrangement points (see FIGS. 7 and 8). Here, the plurality of load cells are composed of single beam type load cells horizontally arranged on the upper surface of the frame along the octagonal upper frame (920) on every other side (see FIGS. 5 and 6). In other words, a three-dimensional frame with an octagonal frame is constructed in the substantially tangential direction of the circular silo feeder in a plan view, and a rod-shaped load cell is arranged on the frame in the tangential direction to provide a compact and stable structure. (See Fig. 3).

In the silo feeder (100), the silo container (1), the horizontal feeder (2), the plurality of vibration motors (4), and the bag breaking blade (6) are connected to each other, and the horizontal The feeder (2) and the vertical conveyor (3) are connected to each other and integrally configured (upper part of FIG. 7).
Here, one of the blades (61) of the bag breaking blade (6) is provided with a long hole (61H), and this long hole (61H) is common to the center of gravity position G of the entire silo feeder (100). do. As a result, when the silo feeder (100) is suspended and supported by the wire W in the elongated hole (61H), the silo feeder (100) is suspended in the vertical direction as shown in FIG. 7. By placing the silo feeder (100) on three load cells (5L) that are cantilevered and supported along the frame of the three-dimensional frame in this suspended state, the silo feeder (100) is weighed. Can be supported (Fig. 7).

To explain the structure of the load cell support more specifically, as shown in FIG. 6, a plurality of stay rods for supporting the weight of the entire silo feeder (100) are provided on the peripheral side portion of the silo container (1). (50) is fixed at each fixed position at equal intervals in the circumferential direction, and the holding frame (9) has a plurality of single beam type load cells (5) corresponding to the number of stay rods (50). , Each is horizontally fixed along each side of the upper frame in the direction along the upper frame (side of the octagon) of the octagonal columnar solid frame (direction in the direction of the plane line of sight of the cylindrical portion). Then, the detection unit of each load cell (5) is brought into contact with each stay rod in correspondence, and the silo feeder (100) is independently supported via a plurality of load cells arranged along each side of the octagonal upper frame. The structure is such that

With the above configuration, the plurality of load cells are compactly spaced along the sides of the octagonal upper frame of the three-dimensional frame without protruding significantly from the three-dimensional frame. Then, the stay rods separated and fixed to the peripheral portion of the silo feeder come into contact with each of the plurality of load cells and are supported in the octagonal columnar three-dimensional frame. Therefore, it is possible to support the measurement of a stable silo feeder in a space-saving manner.

Unlike conventional cement silos in which multiple rod-shaped load cells are arranged in the radial direction in a plan view, the load cells are supported along an octagonal columnar frame to form a stable and compact state. It is excellent in appearance and function.

[Inspection table] The inspection table is attached to a plurality of specific side surfaces (two sides) of the side surfaces of the regular octagonal columnar three-dimensional frame of the holding frame in a one-to-one correspondence with each side.
The load cell is characterized in that it is attached to each of the specific adjacent side surfaces (three surfaces) adjacent to each of the specific plurality of side surfaces to which the inspection table is attached, among the side surfaces of the regular octagonal columnar three-dimensional frame of the holding frame. ..

[5] The holding frame is a three-dimensional frame having a regular octagonal upper frame, a regular octagonal lower frame, and a regular octagonal columnar frame composed of a columnar vertical frame vertically connecting the upper frame and the lower frame (9). When,
An extended frame base (911) formed by extending outward from a part of a regular octagonal lower frame to form a three-sided frame is integrally configured.
The three-dimensional frame houses the silo container and the horizontal feeder in its own octagonal columnar frame.
The stretched frame base is characterized in that it surrounds a vertical conveyor (and a tip of a horizontal feeder) in its own three-sided frame-shaped plan view frame.

[6] The bag-breaking blade (6) is used for hanging at a specific location of one of the four-blade shapes (one inside the silo container and fixed at a position near the vertical conveyor). A long hole (61H) is provided,
The position of the center of gravity (G) of the entire silo feeder (with the lid removed) coincides with a specific location provided with the elongated hole (61H).

Further, as shown in an embodiment (FIG. 7) described later, when the silo feeder is suspended by a long hole (61H) for suspension, the vertical conveyor and the silo container are suspended in a vertically balanced posture. It is characterized by being done.

The holding frame (9) is
A three-dimensional frame (92), which is composed of a substantially regular octagonal columnar frame and surrounds the cylindrical portion of the silo container concentrically in a plan view,
In the three-dimensional frame at the lower end of the three-dimensional frame (to be configured in common with a part of the three-dimensional frame and laterally extended from this three-dimensional frame to hold the horizontal feeder and the vertical conveyor in the frame), a part of a substantially regular octagonal columnar column. It is preferable that the frame is integrally formed with the stretched frame base (91) which is framed in a deformed octagonal shape that is overhanging and deformed to the side. )

The three-dimensional frame (92) and the stretched frame base (91) constituting the upper part of the holding frame will be specifically described.

The three-dimensional frame (92) constituting the upper part of the holding frame is composed of a three-dimensional frame configured in a regular octagonal columnar shape, and holds the cylindrical silo container (1) around the cylindrical silo container (1) substantially evenly in a concentric shape in a plan view. .. A foldable inspection table is hinged to each of the two separated sides of the octagonal column, and the inspection table is suspended so as to cover each side surface in the folded state. Further, on each side surface adjacent to the side surface with two inspection stands and one side surface on the side opposite to the vertical conveyor direction, a reinforcing cross rail 92S is provided in parallel over a plurality of heights, and each side surface is provided. A load cell holding angle 920R for holding the load cell base is provided so as to cover the upper frame 920 (FIG. 6). The load cell holding angle 920R is an L-shaped angle, and a support plate 54L that supports the lower surface of the base portion of the prismatic rod-shaped load cell is fixed to the upper surface of the angle. The load cell is supported and fixed on the base side of the detection unit by the support plate 54L (FIG. 6).

Further, the stretched frame base (91) constituting the lower part of the holding frame forms a common frame with five consecutive sides of the regular octagon in the plan view of the three-dimensional frame at the lower end of the three-dimensional frame (92), and is also a regular octagon. It is composed of a three-dimensional frame having a modified octagonal shape in a plan view, which is formed by extending one side outward from the remaining three sides of the square. The tip of the horizontal feeder and the vertical conveyor (3) connected to the tip of the horizontal feeder are held in the frame of the stretched portion.

The three-dimensional frame and the stretched frame base are made of an octagonal frame to ensure rigidity and are relatively compact, and do not form an extra installation area during transportation and use. In addition, by integrally constructing the frame with the common five sides of the regular octagon of the three-dimensional frame and the modified octagon of the extended frame base, the positional relationship between the silo container and the vertical conveyor is maintained and high rigidity is ensured for the holding frame as a whole. can do.

Further, among the side surfaces of the regular octagonal columnar three-dimensional frame, the inspection table is suspended so as to be horizontally installed on a plurality of separated side surfaces excluding the adjacent surfaces. This inspection table is not one, but multiple counters are provided to secure multiple counters. In the first embodiment, when the direction in which the vertical conveyor 3 is on the right side is viewed from the front, a total of two inspection tables 10 are provided in two directions, one in the front direction and the other in the back direction. Each inspection table 10 is horizontally installed by opening one side of a rectangular table surface made of a net plate surface to a three-dimensional frame with a hinge 10LE and opening a foldable leg portion 10L hinged to the lower part of the net plate surface to ground it. It becomes a state.

The silo container (1) is composed of a tubular silo body in which a cylindrical portion 11 and an inverted conical portion 12 are vertically connected. The upper part of the cylindrical portion 11 is opened and closed by a flat dome-shaped container lid 14.
An arm plate-shaped suspension stay 15 with a suspension hole is fixed to the upper part of the outer peripheral surface of the cylindrical portion 11 at equal intervals in the circumferential direction facing diagonally upward. The plurality of suspension stays 15 form a silo feeder (100) including a silo container (1), a horizontal feeder (2), a plurality of vibration motors (4), a bag breaking blade (6), and a vertical conveyor (3). Suspended and supported (Fig. 7). Alternatively, it is suspended and supported by the hanging hole 61H of the bag breaking blade. When the silo feeder (100) is suspended and supported by the suspension hole 61H of the bag-breaking blade, the center of gravity G with the lid of the entire silo feeder removed is set to be at the same position as the suspension hole 61H. (Fig. 7). Further, at the lower three positions on the outer peripheral surface of the cylindrical portion 11, a horizontal detection plate 51 for fixing the load cell 5L in the tangential direction of the cylindrical portion 11 and an arm plate-shaped suspension stay 15 with a suspension hole face diagonally upward. It is fixed. The inverted conical portion 12 is a substantially conical body that narrows downward, and has a substantially rectangular discharge port at the lower end because the lower front portion and the lower back surface are squeezed into a flat plate shape. The inverted conical portion 12 is connected and fixed to the horizontal feeder 2 at the discharge port at the lower end.

The horizontal feeder (2) communicates with the lower end of the conical portion of the silo container. A spiral feeder 2S is built in the feeder cylinder so as to be rotatable around the axis, and a feeder motor mechanism 22J and a vertical conveyor connection mechanism 3D are connected to the left and right ends of the feeder cylinder via flanges 22F, respectively. The feeder motor mechanism 22J can open and close the key lid 22C by a joint key. Further, the vertical conveyor connection mechanism 3D comprises a mechanism for connecting a horizontal transfer path by a horizontal feeder to a vertical transfer path of a vertical conveyor orthogonal to a feeder cylinder of the vertical conveyor, and an opening / closing type inspection port is provided at a side end portion.

The vertical conveyor (3) consists of a vertical feeder cylinder whose upper end is a feeder motor and faces in the vertical direction, and is laterally connected to the side of the silo container (the side on the right side of the front view in FIG. 1) via an arm 35. The lower part communicates with the horizontal feeder. The lower end is composed of the inspection urine flange 3F, and the inside of the feeder cylinder can be inspected by removing the flange lid 3E. This vertical conveyor is surrounded by a lower stretching frame around the lower part.

The vibration motor (4) is attached to the outer surface of the conical portion 12 of the silo container via H steel, and the two left and right motors interlock to vibrate the silo container when viewed from the front. In the embodiment, it is located on the side portion on the vertical conveyor side (right side in front view in FIG. 1) and the side surface on the opposite side (left side in front view), and is provided so as to be exposed in the left and right frame frames of the three-dimensional frame.

The load cell 5L is composed of a total of three straight beam type box-shaped rods attached to the outer surface of the cylindrical portion of the silo container at equal intervals via the horizontal detection plate 51. Each of the three load cells 5L is oriented so that a straight beam type box-shaped rod is in contact with the lower surface of the horizontal detection plate 51 and extends along the tangential direction of the cylindrical portion of the silo container. Then, the detection unit on the upper surface of the tip of the box-shaped rod of the load cell is in contact with the lower surface of the horizontal detection plate via the sleeve 54, and the detection rod 53 vertically inserted into the sleeve 54 of the detection unit is horizontal. It is connected and fixed to the detection plate 51. Here, the horizontal detection plate 51 is formed of a substantially trapezoidal horizontal plate, and the trapezoidal horizontal plate is fixed to the outer surface of the side plate 50 fixed to the outer surface of the cylindrical portion of the vertical silo container so as to face the horizontal direction. .. In the horizontal plate, an insertion hole for inserting the detection rod of the load cell 5L is formed in the central portion, and a substantially triangular vertical plate 52 is erected and fixed in the vicinity of the left and right of the insertion hole to maintain the installation angle. (Figs. 5 and 6). That is, one horizontal detection plate 51 and two vertical plates 52 standing vertically in contact with the horizontal detection plate 51 are erected and fixed on the side surface of the side plate 50 facing in the vertical direction. ..

The bag-breaking blade (6) is composed of a four-blade-shaped blade body that is assembled and attached in a cylindrical portion of a silo container in a plane-viewing cross-shaped / side-viewing inverted V-shape.

The frame comprises an octagonal three-dimensional frame (9) in which the side portion of the silo container is supported via a load cell, and an extended frame base (911) connected to the lower part of the three-dimensional frame.

The extended frame base connected to the lower part of this three-dimensional frame is shared with the five frame connecting sides opposite to the vertical conveyor among the octagonal three-dimensional frames in a plan view, and has three sides to the side of the vertical conveyor. It consists of a three-dimensionally deformed octagonal frame that protrudes in (Fig. 3).

The three-dimensional frame is composed of an octagonal columnar frame, and surrounds the cylindrical silo container at substantially equal intervals and concentrically in a plan view (FIG. 3).

The stretched frame base consists of a deformed octagonal rigid frame (which encloses the vertical conveyor together).

Multiple inspection stands are hung on both front and rear sides of the octagonal pillar frame so that they can be deployed / folded and stored. Two foldable inspection tables (10) are suspended symmetrically in a plan view on both sides of the upper frame of the octagonal frame.

The board surface of the setting board has a display unit capable of displaying the cement measurement value (131) and the residual value (132) (FIG. 8). In addition, two sets of measurement value setting dials (133) and head setting dials (134) are provided, as well as a batch count display unit (135), a vibration motor (4) (vibro) operation switch (136), and a vibration motor (vibro) operation switch (136). In addition, a reset button (137) for the remaining amount value is provided.

The container lid (14) is composed of an upward convex or dome-shaped lid covering the upper opening of the silo container, and an inverted U ring (14F) for suspending and holding is fixed to the center of the upper surface of the lid.

The cement silo of Example 2 of the present invention shown in FIG. 9 is
A cylindrical silo container (1) in which a cylindrical part and an inverted conical part are connected vertically, and
A horizontal feeder (2) that is connected to the lower end of the conical part of the silo container and communicates with the inside of the silo container.
A vertical conveyor (3) that is connected to the side of the silo container and communicates internally with the horizontal feeder.
Multiple (2) vibration motors (4) mounted at equal intervals on the outer peripheral surface of the inverted conical part of the silo container, and
Multiple (3) load cells (5) mounted at equal intervals on the outer peripheral surface of the cylindrical portion of the silo container, and
A four-blade-shaped bag-breaking blade (6) mounted in a cylindrical portion of a silo container in a cross-shaped (and inverted V-shaped side view) structure.
A holding frame (9) that holds the side of the silo container with an octagonal columnar three-dimensional frame, and
Each side surface of the octagonal pillar of the three-dimensional frame (facing the separation direction) is provided with a plurality of (two) inspection tables (10) suspended so as to be deployable and storable.

The cement silo of Example 3 of the present invention shown in FIG. 10 is
A cylindrical silo container (1) in which a cylindrical part and an inverted conical part are connected vertically, and
A horizontal feeder (2) that is connected to the lower end of the conical part of the silo container and communicates with the inside of the silo container.
A vertical conveyor (3) that is connected to the side of the silo container and communicates internally with the horizontal feeder.
Multiple (2) vibration motors (4) mounted at equal intervals on the outer peripheral surface of the inverted conical part of the silo container, and
Multiple (3) load cells (5) mounted at equal intervals on the outer peripheral surface of the cylindrical portion of the silo container, and
A four-blade-shaped bag-breaking blade (6) mounted in a cylindrical portion of a silo container in a cross-shaped (and inverted V-shaped side view) structure.
A holding frame (9) that holds the side of the silo container with an octagonal columnar three-dimensional frame, and
Each side surface of the octagonal pillar of the three-dimensional frame (facing the separation direction) is provided with a plurality of (two) inspection tables (10) suspended so as to be deployable and storable.

In any of the above examples, the cement silo of the present invention is
A cylindrical silo container (1) in which a cylindrical part and an inverted conical part are connected vertically, and
A horizontal feeder (2) that communicates with the lower end of the conical portion of the silo container, a vertical conveyor (3) that connects the arm to the side of the silo container and communicates with the horizontal feeder,
Two vibration motors (4) mounted on the outer surface of the conical part of the silo container via H steel, and
Three load cells (5) attached to the outer surface of the cylindrical part of the silo container via a horizontal detection plate, and
A four-blade shaped bag-breaking blade (6) installed in the cylindrical part of the silo container in a V-shape with a cross-shaped plan view and an inverted side view.
A rigid frame (9) consisting of an octagonal three-dimensional frame and a stretched frame base that support the sides of the silo container via a load cell, and
Two inspection stands (10) assembled / foldably suspended on both front and rear sides of the octagonal pillar frame, and
A setting board (13) having a display unit that can display the amount of cement discharged and the amount of residual storage, and
It is provided with a container lid (14) that covers the upper opening of the silo container.
The frame (9) is rigidly composed of an octagonal pillar three-dimensional frame (enclosing the container) and a deformed octagonal extended frame base (enclosing both the container and the vertical conveyor), and two foldable inspection tables (10). Is characterized by being symmetrically suspended on both sides of the upper frame of the octagonal frame.

In addition to the above, the features of the present invention are also as follows.
(1) One of the four sack-breaking blades (6) is provided with a long hanging hole (06H) for simply suspending the silo.
(2) The point where the container lid (14) is composed of an upward convex dome-shaped curved disk.
(3) The point where the keyhole plate (02P) that forcibly rotates the feeder shaft is exposed when the motor of the feeder (02) is removed.
(4) Two vibration motors (4) were installed in contact with each other at symmetrical positions on the outer surface of the cone of the silo container. (Previously one)
(5) Based on the change in the detected weight of the load cell, the display unit of the setting panel (13) simultaneously displays the cement discharge amount and the residual storage amount in parallel. (Conventionally only one of them)
(6) The point where the load cell (5) is composed of a lateral beam type load cell in which the outer surface of the cylindrical silo container near the upper part of the upper frame of the frame is brought into contact with the outer surface of the cylindrical silo container in the tangential direction of the plane. The point where each horizontal beam type load cell is installed on each side of the octagonal upper frame of the three-dimensional frame.

Cylindrical part 11
Inverted cone 12
Silo container 1
Horizontal feeder 2
Vertical conveyor 3
Connecting arm 35
Vibration motor 4
Load cell 5L
Bag-breaking blade 6
3D frame 91
Holding frame 9
Check table 10
Storage state (S2)
Deployed state (S1)
Emission amount display 131
Storage residual amount display 132
Setting board 13
Container lid 14
Base plate 10F
Locking part 10H
Fixed leg 10L
Horizontal frame part 92S
Silo feeder 100
Is integrated into one
Stay rod 50
Upper frame 920
Lower frame 910
Vertical frame 92
3D frame 9
Stretched frame base 911
Long hole 61H
Center of gravity with the lid of the entire silo feeder removed G

Claims (6)

A cylindrical silo container with a cylindrical part and an inverted conical part connected vertically,
A horizontal feeder that is connected to the lower end of the cone of the silo container and communicates with the inside of the silo container.
A vertical conveyor that is connected to the side of the silo container and communicates internally with the horizontal feeder,
Multiple vibration motors mounted at equal intervals on the outer peripheral surface of the inverted cone of the silo container,
Multiple load cells mounted at equal intervals on the outer peripheral surface of the cylindrical part of the silo container,
In the cylindrical part of the silo container, a four-blade shaped bag-breaking blade, which is assembled and attached in a cross-shaped plan view,
A holding frame that holds the side of the silo container with an octagonal columnar three-dimensional frame,
Each side of the octagonal pillar of the three-dimensional frame is provided with a plurality of (2) inspection stands (10) suspended so as to be deployable and storable.
The holding frame is configured to have a substantially regular octagonal columnar shape, and includes a three-dimensional frame that concentrically surrounds the cylindrical portion of the silo container in a plan view.
Each inspection table is suspended on a plurality of separated sides of the regular octagonal columnar three-dimensional frame, and each inspection table can be stored along each side surface of the regular octagonal columnar three-dimensional frame. Cement silo. Each of the inspection tables is provided with a base plate, a locking portion, and a fixed leg portion, and the locking portion at the end of the base plate is locked to the horizontal frame portion of the regular octagonal columnar three-dimensional frame. The cement silo according to claim 1, wherein the base plate can be in a stored state in which the base plate is stored along each side surface, and the base plate can be in a horizontally unfolded unfolded state. The silo container, the horizontal feeder, the plurality of vibration motors, and the bag breaking blade are interconnected, and the horizontal feeder and the vertical conveyor are interconnected to integrally form a silo feeder.
On the peripheral side of the silo container, a plurality of stay rods for bearing the weight of the entire silo feeder are fixed at each fixed position at equal intervals in the circumferential direction.
Further, in the holding frame, a plurality of single beam type load cells corresponding to the number of stay rods are placed on the upper frame in the direction of the plane tangential line of the cylindrical portion along the upper frame of the octagonal columnar three-dimensional frame. Fixed horizontally along each side,
The present invention is characterized in that the detection unit of each load cell is brought into corresponding contact with each stay rod, and the silo feeder is supported via a plurality of load cells arranged along each side of the octagonal upper frame. The cement silo according to any one of 1, 2 or 3. The inspection table is attached to a plurality of specific side surfaces of the regular octagonal columnar three-dimensional frame of the holding frame, and is also attached to each of the specific side surfaces.
The load cell is characterized in that it is attached to a specific adjacent side surface adjacent to each of the specific plurality of side surfaces to which an inspection table is attached, among the side surfaces of the regular octagonal columnar three-dimensional frame of the holding frame. The cement silo according to any one of 1, 2 or 3. The holding frame includes a regular octagonal upper frame, a regular octagonal lower frame, and a three-dimensional frame configured in a regular octagonal columnar shape by a columnar vertical frame vertically connecting the upper frame and the lower frame.
An extended frame base formed by extending outward from a part of a regular octagonal lower frame to a three-sided frame is integrally configured.
The three-dimensional frame houses the silo container and the horizontal feeder in its own octagonal columnar frame.
1. The described cement silo. The bag-breaking blade 6 is provided with a long hole for hanging at a specific position on one of the four-blade shapes.
The cement silo according to claim 1, 2, or 3, wherein the position of the center of gravity of the entire silo feeder substantially coincides with the specific portion provided with the elongated hole.

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