CN211115034U - Outer sealing framework of main building of mixing station - Google Patents

Abstract

The utility model discloses a main building outer sealing framework of a mixing station, which comprises a wall outer sealing framework and a roof framework, wherein two opposite surfaces of four surfaces of the wall outer sealing framework are framework structures, and the other two surfaces are connecting rod structures; the frame structure comprises a plurality of frames and a plurality of first transverse connecting rods, a plurality of frame connecting pieces are arranged on two sides of each frame, and vertical waist-shaped mounting holes are formed in the frame connecting pieces; the connecting rod structure comprises a plurality of second transverse connecting rods and a plurality of vertical connecting rods, the second transverse connecting rods comprise second transverse rods and second transverse rod connecting pieces, waist-shaped mounting holes in the horizontal direction are formed in the second transverse rod connecting pieces, and the second transverse rod connecting pieces are connected with corresponding frame connecting pieces through bolts. The stirring station main building outer sealing framework avoids field welding, improves the attractiveness of products, and facilitates disassembly and assembly.

Description

Outer sealing framework of main building of mixing station

Technical Field

The utility model relates to a concrete mixing plant skeleton technical field, concretely relates to main building of mixing plant seals skeleton outward.

Background

The main mixing building is a core component of the concrete mixing plant, all ingredients except aggregate are metered, and then are put into the main mixing machine together with the aggregate to be mixed, a concrete finished product is produced after mixing is finished, and the finished product is discharged into the mixing transport vehicle.

Therefore, the main mixing plant is generally divided into three layers according to functions, namely a metering layer, a mixing layer and a discharging layer from top to bottom. The steel structure frame of the main building is correspondingly divided into three layers, and the steel structure frames of all the layers are provided with corresponding metering devices, stirring devices and discharging devices.

The stirring main building has the problem that powder and aggregate dust leak due to the transfer and feeding of ingredients, and an outer seal is needed to prevent the leaked dust from polluting the surrounding environment. Concrete mixing plant in the existing market, except that the layer of unloading do not do usually not seal because the mixing transport vechicle discrepancy, the whole outer seal is generally made on measurement layer and the stirring layer, and outer sealing plate is various steel battenboard or various steel sheet usually, because various steel battenboard or various steel sheet self are all softer, need fix on the skeleton, consequently need design the main building and seal the skeleton outward. Because the stirring main building is complicated in structure, not only inlets of conveying equipment such as aggregate and powder materials are arranged, but also inlets of an overhaul channel are arranged, and meanwhile enough strength is required to bear certain wind load, so that an outer sealing framework in the existing market is generally welded on a main building frame on site by adopting square steel pipes or rectangular pipes, the field welding and paint supplementing are not attractive, and the later-stage stirring station is inconvenient to disassemble.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a stirring station owner building outward seals skeleton to avoid on-the-spot welding, improve the pleasing to the eye degree of product, and make things convenient for the dismouting.

The utility model discloses an above-mentioned problem is solved to following technical means: the main building outer sealing framework of the mixing station comprises a wall surface outer sealing framework used for mounting a wall surface outer sealing plate and a roof framework used for mounting a roof outer sealing plate, wherein the wall surface outer sealing framework comprises a belt conveyor surface framework, a spiral conveyor surface framework, a vehicle inlet surface framework and a transition bin surface framework, two opposite surfaces of the four surfaces are framework structures, and the other two surfaces are connecting rod structures; the frame structure comprises a plurality of frames and a plurality of first transverse connecting rods, the frames comprise at least two frame vertical rods and a plurality of frame transverse rods stretching between the frame vertical rods, a plurality of frame connecting pieces are arranged on two sides of each frame, and the frame connecting pieces do not protrude out of the outer side of the wall surface outer sealing framework.

Further, a vertical waist-shaped mounting hole is formed in the frame connecting piece; the frame vertical rod is provided with side connecting holes, the first transverse connecting rod comprises a first transverse rod and first transverse rod connecting pieces arranged at two ends of the first transverse rod, the first transverse rod connecting pieces are provided with vertical waist-shaped mounting holes, and the first transverse rod connecting pieces are connected with the corresponding side connecting holes through bolts; the frame cross rod at the topmost end and the frame cross rod at the bottommost end are respectively provided with an upper connecting hole and a lower connecting hole; the connecting rod structure comprises a plurality of second transverse connecting rods and a plurality of vertical connecting rods, the number of the second transverse connecting rods is consistent with that of the frame connecting pieces on one side of the frame, the second transverse connecting rods comprise second transverse rods and second transverse rod connecting pieces arranged at two ends of the second transverse rods, waist-shaped mounting holes in the horizontal direction are formed in the second transverse rod connecting pieces, and the second transverse rod connecting pieces are connected with the corresponding frame connecting pieces through bolts.

Furthermore, the vertical connecting rod comprises a connecting vertical rod and vertical rod connecting pieces arranged at two ends of the connecting vertical rod, waist-shaped mounting holes in the horizontal direction are formed in the vertical rod connecting pieces, and the vertical rod connecting pieces are connected with the second cross rod through bolts.

Further, the belt conveyor surface framework and the vehicle inlet surface framework are of frame structures, and the spiral conveyor surface framework and the transition bin surface framework are of connecting rod structures.

Further, be provided with the roof stand and the roof bracing that are used for supporting firm roof skeleton on the wall outer envelope skeleton.

Further, the quantity of frame horizontal pole is 4, the quantity of frame connecting piece is 8, each 4 of left and right sides, the quantity of second transverse connecting rod is 4, the quantity of perpendicular connecting rod is 6.

The utility model has the advantages that: the main building external sealing framework of the mixing station comprises a wall surface external sealing framework used for mounting a wall surface external sealing plate and a roof framework used for mounting a roof external sealing plate, wherein the wall surface external sealing framework comprises a belt conveyor surface framework, a spiral conveyor surface framework, a vehicle inlet surface framework and a transition bin surface framework, two opposite surfaces of the four surfaces are framework structures, and the other two surfaces are connecting rod structures; the frame structure comprises a plurality of frames and a plurality of first transverse connecting rods, each frame comprises at least two frame vertical rods and a plurality of frame transverse rods stretching between the frame vertical rods, a plurality of frame connecting pieces are arranged on two sides of each frame, the frame connecting pieces do not protrude out of the outer sealing framework of the wall surface, and vertical waist-shaped mounting holes are formed in the frame connecting pieces; the frame vertical rod is provided with side connecting holes, the first transverse connecting rod comprises a first transverse rod and first transverse rod connecting pieces arranged at two ends of the first transverse rod, the first transverse rod connecting pieces are provided with vertical waist-shaped mounting holes, and the first transverse rod connecting pieces are connected with the corresponding side connecting holes through bolts; the frame cross rod at the topmost end and the frame cross rod at the bottommost end are respectively provided with an upper connecting hole and a lower connecting hole; the connecting rod structure comprises a plurality of second transverse connecting rods and a plurality of vertical connecting rods, the number of the second transverse connecting rods is consistent with that of the frame connecting pieces on one side of the frame, the second transverse connecting rods comprise second transverse rods and second transverse rod connecting pieces arranged at two ends of the second transverse rods, waist-shaped mounting holes in the horizontal direction are formed in the second transverse rod connecting pieces, and the second transverse rod connecting pieces are connected with the corresponding frame connecting pieces through bolts. The stirring station main building outer sealing framework is simple in structure, assembled through bolts, prevented from being welded on site, attractive in appearance of products is improved, and disassembly and assembly are facilitated.

Drawings

The invention is further described with reference to the following figures and examples.

Fig. 1 is a schematic diagram of the splicing of the present invention;

FIG. 2 is an enlarged view of the point I;

FIG. 3 is an enlarged view at II;

FIG. 4 is an enlarged view at III;

FIG. 5 is a schematic view of a frame construction;

FIG. 6 is a schematic diagram of a frame;

FIG. 7 is a schematic view of a first cross-link;

FIG. 8 is a schematic view of a linkage arrangement;

FIG. 9 is a schematic view of a second cross-link;

FIG. 10 is a schematic view of a vertical connecting rod;

FIG. 11 is a schematic view of a belt conveyor face frame;

FIG. 12 is a schematic view of a screw deck skeleton;

FIG. 13 is a schematic view of a vehicle entrance face skeleton;

fig. 14 is a schematic view of a transition bin face skeleton.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. The features and advantages of the present invention will become more apparent from the description. It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them.

An exterior seal framework of a main building of a mixing station is shown in figures 11-14, which show the exterior seal and framework of the main building of the mixing station in four directions. The outer sealing plate is provided with two types, namely a wall outer sealing plate 1 and a roof outer sealing plate 2, which are fixed on respective frameworks through self-tapping screws. The wall outer sealing plate 1 is fixed on the wall outer sealing framework 5, and the roof outer sealing plate 2 is fixed on the roof framework 3. In addition, roof studs 4 and roof struts 6 are provided to support the roof framework 3. The wall surface outer sealing framework 5, the roof framework 3, the roof upright post 4 and the roof diagonal brace 6 are all connected with the main building steel structure or connected with each other through bolts.

As mentioned above, the stirring main building has more inlets, so the outer seal and the skeleton of each surface are different and are divided into a belt conveyor surface, a spiral machine surface, a vehicle inlet surface and a transition bin surface. The belt surface is the inlet surface of aggregate conveying belt machine, the size of belt machine channel hole is bigger, and the access of channel is needed to be overhauled by walking on the two sides of belt machine. The screw surface is the inlet surface of the powder conveying screw, and the size of a channel hole of the screw is small and can be adjusted on site according to the actual position. The entry face is the mixer truck entry face, usually for convenience of communication with the mixer truck driver, and the control room is placed on that side and flush with the mixing floor, so that the face has an entry for an external stairway, and in addition, the outer seal at the control room location can be eliminated. Opposite the screw face, adjacent the transition bin side, is the transition bin face, which is substantially free of inlets. Except the entrance, the stirring layer and the metering layer are respectively provided with at least one window, so that the lighting is convenient.

As described above, the wall outer sealing framework 5 is more because the main building entrance, and is therefore the most complicated the utility model discloses in, the wall outer sealing framework 5 designs for frame connecting rod structure, all is bolted connection between frame and the connecting rod, and the frame is planar structure, plane about the connecting piece on the frame does not stand out the frame promptly.

Furthermore, for convenient connection, two opposite surfaces of the four surfaces of the wall surface outer sealing framework 5 are of frame structures, and the other two surfaces are of connecting rod structures.

Preferably, because the roof pillars 4 are generally located in the screw plane and the transition bin plane, the skeletons of the two planes are designed as a link structure, while the skeletons of the belt plane and the vehicle entrance plane are frame structures.

The concrete structure of the outer sealing framework is described below by taking the stirring layer as an example, as shown in fig. 1-10, the wall outer sealing framework comprises a belt conveyor surface framework, a spiral conveyor surface framework, a vehicle inlet surface framework and a transition bin surface framework, the belt conveyor surface framework and the vehicle inlet surface framework are framework structures, and the spiral base surface framework and the transition bin surface framework are connecting rod structures.

Use belt conveyor face skeleton as an example, as shown in fig. 5-7, frame construction includes 2 frames 51 and 4 first horizontal connecting rod 52, frame 51 includes two frame montants 511 and spanes 4 frame horizontal poles 512 between frame montant 511, and the both sides of frame all are provided with 4 frame connecting piece 513, 8 frame connecting piece 513 altogether, and frame connecting piece 513 is located inside the frame that frame montant 511 and frame horizontal pole 512 formed, easy to assemble and transportation, the frame connecting piece does not bulge the outside of the outer skeleton of wall, vertical waist type mounting hole has been seted up on the frame connecting piece 513, adjusts during easy to assemble. Frame montant 511 is last to have seted up 4 side connecting holes 514, first horizontal rod 52 includes first horizontal pole 521 and sets up the first horizontal pole connecting piece 522 at first horizontal pole both ends, seted up vertical waist type mounting hole on the first horizontal pole connecting piece 522, be connected through bolt 7 between first horizontal pole connecting piece 522 and the side connecting hole 514 that corresponds, this bolt passes the waist type mounting hole on side connecting hole and the first horizontal pole connecting piece. The frame cross bar 512 at the topmost end and the frame cross bar 512 at the bottommost end are respectively provided with an upper connection hole 515 and a lower connection hole 516, which are respectively used for connecting with the upper surface of the stirring layer and the lower surface of the metering layer.

As shown in fig. 8-10, the link structure includes 4 second transverse links 53 and 2 vertical connecting links 54, the number of the second transverse connecting links 53 is the same as the number of the frame connecting links 513 on one side of the frame, each second transverse connecting link 53 includes a second transverse rod 531 and second transverse rod connecting links 532 disposed at two ends of the second transverse rod, a horizontal waist-shaped mounting hole is disposed on each second transverse rod connecting link 532, the second transverse rod connecting links 532 are connected with the corresponding frame connecting links 513 through bolts 7, and the bolts pass through the waist-shaped mounting holes on the second transverse rod connecting links 532 and the frame connecting links 513.

The vertical connecting rod 54 comprises a connecting vertical rod 541 and vertical rod connecting pieces 542 arranged at two ends of the connecting vertical rod 541, the vertical rod connecting pieces are provided with horizontal waist-shaped mounting holes, and the vertical rod connecting pieces are connected with the second cross rod through bolts.

As shown in fig. 2, the frame connecting members 513 of the frame 51 are connected together through the bolts 7 and the second cross bar connecting members 532 of the second cross connecting rods 53, the frame 51 is of a planar frame structure, and the second cross bar connecting members 532 are staggered and perpendicular relative to the second cross bars 531, so that after connection, the outer surfaces of the two sides of the corner edge of the wall outer envelope framework 5 are both planar, that is, no connecting member extends out of the outer surface of the wall outer envelope framework 5, thereby ensuring that the wall outer envelope plate 1 can be conveniently fixed thereon.

As shown in fig. 3, the frame vertical bar 511 of the frame 51 is connected with the first cross bar connecting piece 522 of the first cross connecting bar 52 through the bolt 7, and the first cross bar connecting piece 522 is designed vertically, so as to ensure the smoothness of the outer surface of the wall surface outer enclosure framework 5.

As shown in fig. 4, the second cross bar 531 of the second cross link 53 is connected to the vertical link connector 542 of the vertical link 54 through the bolt 7, and the vertical link connector 542 is designed horizontally, so as to ensure the flatness of the outer surface of the wall outer frame 5.

The structure of the outer sealing framework of the other surfaces of the stirring layer and the outer sealing framework of the metering layer are basically similar to those of the two surfaces, and only some adaptive changes are carried out at the inlet, so that the description is omitted.

The connecting piece that this application will all not outwards bulge the wall and seal the skeleton outward, makes the outside of wall outer seal skeleton level and smooth, makes things convenient for the installation of outer shrouding.

To sum up, the stirring station owner building outer sealing framework of this application, simple structure, adopt the bolt to assemble, avoided on-the-spot welding, improved the pleasing to the eye degree of product to make things convenient for the dismouting.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (6)

1. The utility model provides a stirring station owner building outer sealing skeleton which characterized in that: the wall surface outer sealing framework comprises a belt conveyor surface framework, a spiral conveyor surface framework, a vehicle inlet surface framework and a transition bin surface framework, two opposite surfaces of the four surfaces are framework structures, and the other two surfaces are connecting rod structures; the frame structure comprises a plurality of frames and a plurality of first transverse connecting rods, the frames comprise at least two frame vertical rods and a plurality of frame transverse rods stretching between the frame vertical rods, a plurality of frame connecting pieces are arranged on two sides of each frame, and the frame connecting pieces do not protrude out of the outer side of the wall surface outer sealing framework.

2. The mixing station main building envelope framework of claim 1, wherein: the frame connecting piece is provided with a waist-shaped mounting hole; the frame vertical rod is provided with side connecting holes, the first transverse connecting rod comprises a first transverse rod and first transverse rod connecting pieces arranged at two ends of the first transverse rod, the first transverse rod connecting pieces are provided with waist-shaped mounting holes, and the first transverse rod connecting pieces are connected with the corresponding side connecting holes through bolts; the frame cross rod at the topmost end and the frame cross rod at the bottommost end are respectively provided with an upper connecting hole and a lower connecting hole; the connecting rod structure comprises a plurality of second transverse connecting rods and a plurality of vertical connecting rods, the number of the second transverse connecting rods is consistent with that of the frame connecting pieces on one side of the frame, the second transverse connecting rods comprise second transverse rods and second transverse rod connecting pieces arranged at two ends of the second transverse rods, waist-shaped mounting holes are formed in the second transverse rod connecting pieces, and the second transverse rod connecting pieces are connected with the corresponding frame connecting pieces through bolts.

3. The mixing station main building envelope framework of claim 2, wherein: the vertical connecting rod comprises a connecting vertical rod and vertical rod connecting pieces arranged at two ends of the connecting vertical rod, waist-shaped mounting holes in the horizontal direction are formed in the vertical rod connecting pieces, and the vertical rod connecting pieces are connected with the second transverse rod through bolts.

4. The mixing station main building envelope framework of claim 3, wherein: the belt conveyor face framework and the vehicle inlet face framework are of frame structures, and the spiral conveyor face framework and the transition bin face framework are of connecting rod structures.

5. The mixing station main building envelope framework of claim 4, wherein: the wall surface outer sealing framework is provided with a roof upright post and a roof diagonal brace which are used for supporting and stabilizing the roof framework.

6. The mixing station main building envelope framework of claim 5, wherein: the quantity of frame horizontal pole is 4, the quantity of frame connecting piece is 8, each 4 of left and right sides, the quantity of second transverse connecting rod is 4, the quantity of perpendicular connecting rod is 2.

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