CN203282608U - Fast installment field changing stirring station free of foundations - Google Patents

Abstract

The utility model discloses a fast installment field changing stirring station free of foundations. The fast installment filed changing stirring station comprises a main station, a material distributing machine, a belt machine, a powder material cabin and a foundation structure. The foundation structure is composed of the four independent foundations of a main station foundation, a material distributing machine foundation, a belt machine foundation and a powder material cabin foundation. Regarding to engineering type construction characteristics and requirements of engineering construction for stirring stations, the fast installment field changing stirring station is designed on the premise that high-performance concrete stirring is achieved. According to the fast installment field changing stirring station, concrete foundations are replaced by steel foundations which can be repeatedly used. The fast installment field changing stirring station is divided into a main station module, a material distributing machine module, a feeding belt machine module and a powder material cabin module; being made of steel structure foundations, the main station module, the material distributing machine module, the feeding belt machine module and the powder material cabin module shorten the time limit for a project, save removal costs of engineering type stirring stations, and reduce waste of resources. Being designed in a modularized mode, the fast installment field changing stirring station is convenient to transport and fast to install, and guarantees the overall quality of the stirring stations because field cutting and welding amount is greatly reduced. The fast installment filed changing stirring station can be widely applied to building construction projects.

Description

Foundation-free is fast installed the transition mixing plant

Technical field

The utility model relates to a kind of mixing plant.

Background technology

Flourish along with engineering constructions such as China Express Railway, highways, also increasing to the demand of Engineering mixing plant.Affected by the factor such as construction environment, the Engineering mixing plant has following characteristics: 1, due to the duration of a project, the common engineering duration is 2-3, and the Engineering mixing plant requires the set-up time short; 2, due to the cost reason, the Engineering mixing plant requires its migration cost of reduce.

Present domestic mixing plant mostly is extensive style macrostructure mixing plant, the shortcoming of this class mixing plant is: 1, because whole station need to be beaten concrete foundation in advance, it is very inconvenient when therefore such mixing plant is moved, need to again beat concrete foundation, increased on the one hand cost of investment, also increased on the other hand the duration of resettlement, concrete foundation also is unfavorable for the also field recycling in soil in the waste that has caused resource, and also the cost of field recycling is higher in soil; 2, because whole station structure is non-modular designs, the on-site installation work amount is increased greatly, thereby cause that installation period is long and affect quality, especially mixing plant removal transition loaded down with trivial details, time-consuming especially, affect the duration and waste resource.

The utility model content

The purpose of this utility model is to provide a kind of foundation-free the transition mixing plant fast is installed, and solve the technical problem that mixing plant shifts inconvenience, affects the duration; And the problem that complexity is loaded down with trivial details, construction cost is high is installed in solution.

For achieving the above object, the utility model adopts following technical scheme:

A kind of foundation-free is fast installed the transition mixing plant, comprises main website, proportioning machine, belt feeder, filler bin and foundation structure, described foundation structure is basic by main website basis, proportioning machine, four of belt conveyer foundations, filler bin basis separately independently basis form;

The main website support body of described main website is fixedly connected on the main website basis, and the main website basis is the basis of steel-frame structure, and described main website and main website basis form master station module.

The proportioning machine support body of described proportioning machine is fixedly connected on the proportioning machine basis, and described proportioning machine basis is the basis of steel-frame structure, and described proportioning machine and proportioning machine basis form the proportioning machine module.

The belt feeder support body of described belt feeder is fixedly connected on belt conveyer foundation, and belt conveyer foundation is the basis of steel-frame structure, and described belt feeder and belt conveyer foundation form the belt feeder module.

Described filler bin has a plurality of, the filler bin support body of single filler bin is fixedly connected on the little basis of filler bin, adjacent filler bin is joined together to form the filler bin basis by tie-beam between little basis, described filler bin basis is the basis of steel-frame structure, link together by the walking passage between adjacent filler bin, a plurality of filler bins, the single filler bin walking passage of connection and the filler bin basis that is connected into by the little basis of filler bin and tie-beam form the filler bin module.

The little basic parallel interval of described filler bin is arranged in a row, and the warehouse central point of a plurality of filler bins forms straight line, is arranged in a side of main website, and the number of filler bin is not more than four.

The central point of the warehouse of described a plurality of filler bins is arc line shaped, is distributed in a side of main website, and wherein little basis of filler bin of outermost is vertical with the little basis of other filler bins, and the number of filler bin is not more than five.

The little basic parallel interval of described filler bin is arranged in two rows, is distributed in the both sides of main website, and the number of filler bin is not more than six.

Described main website basis by two parallel main website longerons, be connected to main website crossbeam that one group of parallel interval between two main website longerons arranges, be connected to the main website curb girder that two groups of outer parallel interval of main website longeron arrange and be fixed on the main website longeron main website support body connecting plate that is used for connecting the main website support body and form, described main website longeron, main website crossbeam are connected and all are welded with the connection otic placode with the main website curb girder, and connect otic placode by being spirally connected and connect.

Batching captain's longeron that described proportioning machine basis is arranged by one group of parallel interval, be connected to the proportioning machine carling that the parallel interval of proportioning machine crossbeam that two parallel interval between two adjacent batching captain longerons arrange, the two proportioning machine crossbeams of connection between two adjacent batching captain longerons arranges and be fixed on batching captain longeron the proportioning machine support body connecting plate that is used for connecting the proportioning machine support body and form, described batching captain longeron, proportioning machine crossbeam are connected and all are welded with the connection otic placode with the proportioning machine carling, and by the connection otic placode that is spirally connected, connect.

The belt feeder longeron that described belt conveyer foundation is arranged by two parallel interval, be connected to two between the belt feeder longeron the belt feeder crossbeam, be connected to the belt feeder longeron outside the belt feeder curb girder, be connected to the belt feeder raker beam between belt feeder longeron and belt feeder crossbeam and be fixed on the belt feeder longeron belt feeder support body connecting plate that is used for connecting the belt feeder support body and form, described belt feeder longeron, belt feeder crossbeam, belt feeder curb girder and belt feeder raker beam are connected and all are welded with the connection otic placode, and by the connection otic placode that is spirally connected, connect.

The filler bin longeron that the little basis of described filler bin is arranged by two parallel interval, be connected to the filler bin crossbeam that one group of parallel interval between two filler bin longerons arranges and be fixed on the filler bin longeron steel frame that the filler bin support body connecting plate that is used for connecting the filler bin support body forms, described storehouse longeron, filler bin crossbeam are connected with tie-beam all to be welded with and are connected otic placode 16, and by the connection otic placode that is spirally connected, connect.

Between described main website basis and main website support body, between proportioning machine basis and proportioning machine support body, between belt conveyer foundation and belt feeder support body, be bolted between the little basis of filler bin and filler bin support body or by being connected the bearing connection.

Described connection bearing by the base plate by bolt hole, the joint pin that is used for being connected top board with the support body bottom welding and connecting top board and base plate forms, and welds floor between described joint pin and base plate.

Compared with prior art the utlity model has following characteristics and beneficial effect:

The utility model has overcome traditional mixing plant shortcoming complicated, that cost is high, the resettlement transfer is constant has been installed, and has solved the technical problem of saving engineering cost, shortening the construction period, increasing work efficiency.

the utility model is for Engineering construction characteristics and the engineering construction demand to mixing plant, under the prerequisite that meets the high performance concrete stirring, design foundation-free the transition mixing plant fast is installed, be exactly to replace the coagulation soil matrix with the base steel plinth, the base steel plinth can reuse, avoided the just discarded waste once of concrete foundation of mixing plant resettlement, especially the place second ploughing cost after the resettlement is high, the utility model is divided into master station module, the proportioning machine module, the belt feeder module that feeds intake and filler bin module, all adopt steel structure base, guarantee not sedimentation, in the time of the antidumping effect, do not need to beat in advance concrete foundation, also saved the migration cost of Engineering mixing plant the reduction of erection time, and reduced waste to resource, soil after the resettlement just can be used as to plough and uses after simple the processing simultaneously, greatly reduce the also difficulty in field of soil, saved the also cost in field of soil, three kinds of different schemes are adopted on the little basis of filler bin, can carry out different selections according to specific requirement, to adapt to field condition, whole station structure adopts modularized design, and convenient transportation is quick for installation, can guarantee to complete within a short period of time the installation at whole station, and cut the total quality that has also guaranteed mixing plant that greatly reduces of weldering amount due to scene.

The utility model can be widely used in construction engineering.

Description of drawings

The utility model is described in more detail below in conjunction with accompanying drawing.

Fig. 1 is the structure schematic top plan view of the linear pattern arrangement of the utility model embodiment one.

Fig. 2 is the main website of linear pattern arrangement of the utility model embodiment one and the distributed architecture schematic diagram of filler bin.

Fig. 3 is the main website of linear pattern arrangement of the utility model embodiment one and the distributed architecture schematic diagram of batch bin.

Fig. 4 is that the structure master of the master station module of the utility model embodiment one looks schematic diagram.

Fig. 5 is the local enlarged diagram of H in Fig. 4.

Fig. 6 is the structure schematic side view of the master station module of the utility model embodiment one.

Fig. 7 is the structural representation on the main website basis of the utility model embodiment one.

Fig. 8 is the syndeton schematic diagram on the main website basis of the utility model embodiment one.

Fig. 9 is that the structure master of the proportioning machine module of the utility model embodiment one looks schematic diagram.

Figure 10 is the structure schematic side view of the proportioning machine module of the utility model embodiment one.

Figure 11 is the structural representation on the proportioning machine basis of the utility model embodiment one.

Figure 12 is the syndeton schematic diagram on the proportioning machine basis of the utility model embodiment one.

Figure 13 is the structural representation of the belt conveyer foundation of the utility model embodiment one.

Figure 14 is the structural representation of the filler bin module of the utility model embodiment one.

Figure 15 is the local enlarged diagram of I in Figure 14.

Figure 16 is the structural representation of the filler bin warehouse of the utility model embodiment one.

Figure 17 is the structural representation on the filler bin basis of the utility model embodiment one.

Figure 18 is the structural representation on the little basis of filler bin of the utility model embodiment one.

Figure 19 is the syndeton schematic diagram of the little basis of the filler bin of the utility model embodiment one and tie-beam.

Figure 20 is the structural representation of the tie-beam of the utility model embodiment one.

Figure 21 is the structural representation of the arc line type arrangement of embodiment two of the present utility model.

Figure 22 is the structural representation of the filler bin warehouse of the utility model embodiment two.

Figure 23 is the structural representation on the filler bin basis of the utility model embodiment two.

Figure 24 is the structural representation of the rectangular arrangement scheme of embodiment three of the present utility model.

Figure 25 is the main website of rectangular arrangement scheme of embodiment three of the present utility model and the distributed architecture schematic diagram of filler bin.

Figure 26 is the structural representation of the filler bin module of the utility model embodiment three.

Figure 27 is the structural representation of the filler bin warehouse of the utility model embodiment three.

Figure 28 is the structural representation on the filler bin basis of the utility model embodiment three.

Reference numeral: 1-main website, 2-main website support body, 3-main website basis, 3.1-main website longeron, 3.2-main website crossbeam, 3.3-main website curb girder, 3.4-main website support body connecting plate, the 4-proportioning machine, 5-proportioning machine support body, 6-proportioning machine basis, 6.1-batching captain longeron, 6.2-proportioning machine carling, 6.3-proportioning machine crossbeam, 6.4-proportioning machine support body connecting plate, the 7-belt feeder, 8-belt feeder support body, the 9-belt conveyer foundation, 9.1-belt feeder longeron, 9.2-belt feeder crossbeam, 9.3-belt feeder curb girder, 9.4-belt feeder raker beam, 9.5-belt feeder support body connecting plate, the 10-filler bin, 11-filler bin support body, the little basis of 12-filler bin, 12.1-filler bin longeron, 12.2-filler bin crossbeam, 12.3-filler bin support body connecting plate, the 13-tie-beam, 14-connects bearing, 14.1-base plate, 14.2-joint pin, 14.3-top board, 14.4-floor, the 15-gusset, 16-connects otic placode, the 17-passage of walking.

The specific embodiment

embodiment one is referring to Fig. 1, Fig. 2, shown in Figure 3, this foundation-free is fast installed the transition mixing plant, comprise main website 1, proportioning machine 4, belt feeder 7, filler bin 10 and foundation structure, described foundation structure is by main website basis 3, proportioning machine basis 6, belt conveyer foundation 9, four, filler bin basis separately independently basis form, and the design principle on basis is not sedimentation, antidumping, can transport, cost is moderate, because filler bin not only load is large, and center of gravity is high, so classify design focal point of the present utility model as, according to this principle, what designed that filler bin in the three kinds of General Arrangement Scheme that is applicable to different demands: embodiment one adopts is scheme one linear pattern is arranged: the little basic parallel interval of filler bin is arranged in a row, the warehouse central point of a plurality of filler bins 10 forms straight line, be arranged in a side of main website, the number of filler bin 10 is not more than four.

four filler bin straight line of this scheme, in one line, the spiral captain, filler bin drops to minimum, the little basis of filler bin and filler bin warehouse all can be connected as a single entity separately, its anti-settling and resistance to capsizing have been strengthened, and all above installations of zero level of this scheme all devices, backstage does not need to dig pit, advantage is exactly the filler bin marshalling, center of gravity is low, interconnecting and standardized production of convenient basis, based process is simple, do not need to dig pit, shortcoming is that screw machine is long, efficiency can to a certain degree affected, and filler bin quantity also is not suitable for having increased again, although backstage does not need to dig pit, but the material loading slope is also higher.

referring to Fig. 4, shown in Figure 6, the main website support body 2 of described main website 1 is fixedly connected on main website basis 3, shown in Figure 7, main website basis 3 is the basis of steel-frame structure, described main website basis 3 is by two parallel main website longerons 3.1, be connected to the main website crossbeam 3.2 that one group of parallel interval between two main website longerons 3.1 is arranged, be connected to the main website curb girder 3.3 that two groups of outer parallel interval of main website longeron 3.1 are arranged, and be fixed on main website longeron 3.1 for main website support body connecting plate 3.4 compositions that connect main website support body 2, shown in Figure 8, described main website longeron 3.1, main website crossbeam 3.2 connects otic placode 16 with all being welded with on the main website curb girder is connected, and by the connection otic placode that is spirally connected, connect, described main website 1 and main website basis 3 form master station module.

referring to Fig. 9, shown in Figure 10, the proportioning machine support body 5 of described proportioning machine 4 is fixedly connected on proportioning machine basis 6, shown in Figure 11, described proportioning machine basis 6 is the basis of steel-frame structure, batching captain's longeron 6.1 that described proportioning machine basis 6 is arranged by one group of parallel interval, be connected to the proportioning machine crossbeam 6.3 that two parallel interval between two adjacent batching captain longerons 6.1 are arranged, the proportioning machine carling 6.2 that the parallel interval of the two proportioning machine crossbeams 6.3 of connection between two adjacent batching captain longerons 6.1 is arranged, and be fixed on batching captain longeron 6.1 for proportioning machine support body connecting plate 6.4 compositions that connect proportioning machine support body 5, shown in Figure 12, described batching captain longeron 6.1, proportioning machine crossbeam 6.3 connects otic placode 16 with all being welded with on the proportioning machine carling is connected, and by the connection otic placode that is spirally connected, connect, described proportioning machine 4 and proportioning machine basis 6 form the proportioning machine module.

shown in Figure 13, the belt feeder support body 8 of described belt feeder 7 is fixedly connected on belt conveyer foundation 9, number of legs according to belt feeder support body 8, many group belt conveyer foundations 9 can be set, described belt conveyer foundation 9 is the basis of steel-frame structure, the belt feeder longeron 9.1 that described belt conveyer foundation 9 is arranged by two parallel interval, be connected to two belt feeder crossbeams 9.2 between belt feeder longeron 9.1, be connected to the belt feeder curb girder 9.3 in belt feeder longeron 9.1 outsides, be connected to the belt feeder raker beam 9.4 between belt feeder longeron 9.1 and belt feeder crossbeam 9.2, and be fixed on belt feeder longeron 9.1 for belt feeder support body connecting plate 9.5 compositions that connect belt feeder support body 8, described belt feeder longeron 9.1, belt feeder crossbeam 9.2, belt feeder curb girder 9.3 connects otic placode 16 with all being welded with on the belt feeder raker beam is connected, and by the connection otic placode that is spirally connected, connect, described belt feeder 7 and belt conveyer foundation 9 form the belt feeder module.

shown in Figure 14, described filler bin 10 has a plurality of, the filler bin support body 11 of single filler bin 10 is fixedly connected on filler bin little basic 12, shown in Figure 16, link together by walking passage 17 between adjacent filler bin 10, shown in Figure 17, be joined together to form the filler bin basis by tie-beam 13 between adjacent filler bin little basic 12, described filler bin basis is the basis of steel-frame structure, shown in Figure 18, the filler bin longeron 12.1 that described filler bin little basic 12 is arranged by two parallel interval, be connected to the filler bin crossbeam 12.2 that one group of parallel interval between two filler bin longerons 12.1 is arranged, and the steel frame that is fixed on filler bin longeron 12.1 filler bin support body connecting plate 12.3 compositions that are used for connection filler bin support body 11, referring to Figure 19, shown in Figure 20, described storehouse longeron 12.1, filler bin crossbeam 12.2 connects otic placode 16 with all being welded with on tie-beam is connected, and by the connection otic placode that is spirally connected, connect, a plurality of filler bins 10, the filler bin basis that connects single filler bin 10 walking passages 17 and by filler bin little basic 12 and tie-beam 13, connected into forms the filler bin module.

Referring to Fig. 1, Fig. 2, Fig. 3, shown in Figure 17, the little basic 12 parallel placements of filler bin that are spirally connected by filler bin longeron 12.1, filler bin crossbeam 12.2, be arranged into straight line, be distributed in a side of main website 1, filler bin longeron 12.1 is perpendicular to the transporting direction that feeds intake of belt feeder 7, and connect by the tie-beam 13 that is spirally connected between adjacent filler bin longeron 12.1, filler bin support body 11 is screwed onto on the filler bin connecting plate 12.3 that is fixed on filler bin basis 13, link into an integrated entity by walking passage 17 between filler bin 10, the central point line of filler bin forms straight line.

Referring to Fig. 5, Figure 12, shown in Figure 15, between described main website basis 3 and main website support body 2, between proportioning machine basis 6 and proportioning machine support body 5, between belt conveyer foundation 9 and belt feeder support body 8, be bolted between filler bin little basic 12 and filler bin support body 11 or by being connected bearing 14 connections.

Shown in Figure 5, described connection bearing 14 by with main website basis 3 on the base plate 14.1 that is spirally connected of main website support body connecting plate 3.4, with the top board 14.3 of the bottom welding of main website support body 2 and be connected top board 14.3 and the joint pin 14.2 of base plate 14.1 forms, installation accuracy between this kind connected mode pair and support body and basis is less demanding, to connect bearing 14 first is spirally connected with main website basis 3, and then with 2 welding of main website support body, do not need the main website basis is accurately located with the main website support body, easily install.

Shown in Figure 12, welding floor 14.4 between described joint pin 14.2 and base plate 14.1, with be connected gusset 15 between proportioning machine basis 6, floor 14.4 is connected with gusset and has been strengthened the stability that connects, wherein gusset 15 is to be spirally connected and to be formed by the otic placode on the proportioning machine basis 6 that is welded on respectively connection bearing 14, easily install, and for convenience detach.

Shown in Figure 15, directly be bolted between filler bin little basic 12 and filler bin support body 11, this mode has just reduced cost.

embodiment two is referring to shown in Figure 21, different from embodiment one is, what filler bin adopted is that scheme two arc line shapeds are arranged: the central point of the warehouse of described a plurality of filler bins 10 is arc line shaped, be distributed in a side of main website, wherein little basis of filler bin of outermost is vertical with the little basis of other filler bins, the number of filler bin 10 is not more than five, filler bin little basic 12 is by filler bin longeron 12.1, filler bin crossbeam 12.2 is spirally connected and forms, be arranged in a side of main website 1, wherein the filler bin longeron on a little basis of filler bin is parallel to the transporting direction that feeds intake of belt feeder 7, the little basic parallel interval of other filler bin is arranged, the filler bin longeron is perpendicular to the transporting direction that feeds intake of belt feeder 7, referring to shown in Figure 23, and connect by the tie-beam 13 that is spirally connected between adjacent filler bin longeron 12.1, filler bin support body 11 is screwed onto on the filler bin connecting plate 12.3 that is fixed on filler bin little basic 12, referring to shown in Figure 22, link into an integrated entity by walking passage 17 between filler bin 10, the central point line of filler bin forms a curve.

in this scheme, filler bin rises to five, five curved layouts of filler bin, the screw machine moderate length, the little basis of filler bin and filler bin warehouse also can be connected as a single entity separately, main website is installed more than zero level, backstage proportioning machine and belt feeder tailstock are installed the hole that need to dig 1.5～3 meters left and right, advantage is exactly that filler bin quantity can be increased to five, the screw machine moderate length, material loading slope, backstage is not high, be very suitable for the transformation of traditional concrete foundation mixing plant, all original equipment can not done to change and be used, the shortcoming of this scheme is that the filler bin basic cost increases to some extent, need to dig pit and need to do shear wall in backstage.

embodiment three is referring to Figure 24, shown in Figure 25, different with embodiment two from embodiment one is, what filler bin adopted is scheme three rectanglar arrangements: little basic 12 parallel interval of described filler bin are arranged in two rows, be distributed in the both sides of main website, the number of filler bin 10 is not more than six, filler bin little basic 12 is by filler bin longeron 12.1, filler bin crossbeam 12.2 is spirally connected and forms, parallel arrangement becomes two rows, be symmetrical in the both sides that main website 1 is distributed in main website 1, filler bin longeron 12.1 is perpendicular to the transporting direction that feeds intake of belt feeder 7, referring to shown in Figure 28, connect by the tie-beam 13 that is spirally connected between adjacent filler bin longeron 12.1, filler bin support body 11 is screwed onto on the filler bin connecting plate 12.3 that is fixed on filler bin little basic 12, referring to Figure 26, shown in Figure 27, link into an integrated entity by walking passage 17 between filler bin 10, the central point line of filler bin 10 surrounds rectangle.

In this scheme, filler bin has been increased to six, six filler bin apportion main website both sides, screw machine length is the shortest, energy-conservation, the both sides powder material storehouse top can be connected as a single entity by the walking passage, its two-way resistance to capsizing is all strong, main website is installed more than zero level, backstage proportioning machine and belt feeder tailstock are installed and have been adopted a half-way house, this scheme is mainly to allow the flat belt of proportioning machine have to come back trend, makes like this belt feeder tailstock that melt pit and proportioning machine are installed the degree of depth on melt pit and material loading slope or highly all little is installed, and does not need to do shear wall.

By the computer Mechanical Calculation and Analysis, the structural parameters that each is basic have been determined, and the bearing capacity requirement of equipment installing base face, mainly take filler bin, HZS120 main website and HZS90 main website, HZS90 four aggregate batchers, HZS120 four aggregate batchers and HZS180 four aggregate batchers of 100 tons to 300 tons as example, list corresponding parameter, see table:

A kind of foundation-free is fast installed the construction method of transition mixing plant, and concrete steps are as follows:

Step 1, process and harden foundation ground, guarantees the flatness on ground.

Step 2, transport respectively according to modules, main website 1, proportioning machine 4 are assembled before dispatching from the factory, whole Transporting is to job site afterwards, filler bin whole Transporting below 150 tons is to job site, make the split blade type structure greater than the filler bin of 150 tons, be bolted at the construction field (site) installation, belt feeder 7 adopts the standard knot structure, the more piece belt-conveying is extremely on-the-spot, carry out Assembling, each member in main website basis 3, proportioning machine basis 6, belt conveyer foundation 9, filler bin little basic 12 transports respectively, assembles at the construction field (site).

Step 3,, according to dimensional requirement, carry out respectively scene by module and install;

Master station module is installed: assembling main website basis 3, mutually be spirally connected being transported to on-the-spot main website longeron 3.1, main website crossbeam 3.2, size according to main website, the main website curb girder 3.3 that is spirally connected in the outside of main website longeron 3.1, be spirally connected main website support body 2 and the main website support body connecting plate 3.4 that is fixed on main website basis 3 afterwards.

The proportioning machine module is installed: assembling proportioning machine basis 6, mutually be spirally connected being transported to on-the-spot batching captain's longeron 6.1, proportioning machine carling 6.2, proportioning machine crossbeam 6.3, afterwards proportioning machine support body 5 and the proportioning machine support body connecting plate 6.4 that is fixed on proportioning machine basis 6 be spirally connected.

The belt feeder module is installed: assembling belt conveyer foundation 9, size according to belt feeder, mutually be spirally connected with belt feeder crossbeam 9.2 and belt feeder curb girder 9.3 being transported to on-the-spot belt feeder longeron 9.1, be connected belt feeder raker beam 9.4 between belt feeder longeron 9.1 and belt feeder crossbeam 9.2, according to on-the-spot actual needs, the overall length of belt feeder 7, by belt feeder standard knot configuration assembling, is spirally connected belt feeder support body 8 and the belt feeder support body connecting plate 9.5 that is fixed on belt conveyer foundation 9 afterwards.

The filler bin module is installed: according to different demands, basic according to three kinds of scheme assembling filler bins:

Scheme one linear pattern is arranged: the little basic 12 parallel placements of single filler bin that are spirally connected by filler bin longeron 12.1, filler bin crossbeam 12.2, be arranged into straight line, be distributed in a side of main website 1, filler bin longeron 12.1 is perpendicular to the transporting direction that feeds intake of belt feeder 7, and connect by the tie-beam 13 that is spirally connected between adjacent filler bin longeron 12.1, filler bin support body 11 is screwed onto on the filler bin connecting plate 12.3 that is fixed on filler bin little basic 13, link into an integrated entity by walking passage 17 between filler bin 10, the central point line of filler bin forms straight line.

scheme two arc line shapeds are arranged: filler bin little basic 12 is by filler bin longeron 12.1, filler bin crossbeam 12.2 is spirally connected and forms, be arranged in a side of main website 1, wherein the filler bin longeron on a filler bin basis is parallel to the transporting direction that feeds intake of belt feeder 7, other filler bin basis parallel interval is arranged, the filler bin longeron is perpendicular to the transporting direction that feeds intake of belt feeder 7, and connect by the tie-beam 13 that is spirally connected between adjacent filler bin longeron 12.1, filler bin support body 11 is screwed onto on the filler bin connecting plate 12.3 that is fixed on filler bin little basic 12, link into an integrated entity by walking passage 17 between filler bin 10, the central point line of filler bin forms a curve.

Scheme three rectanglar arrangements: filler bin little basic 12 is spirally connected and is formed by filler bin longeron 12.1, filler bin crossbeam 12.2, parallel arrangement becomes two rows, is symmetrical in main website 1 and is distributed in the both sides of main website 1, filler bin longeron 12.1 is perpendicular to the transporting direction that feeds intake of belt feeder 7, and connect by the tie-beam 13 that is spirally connected between adjacent filler bin longeron 12.1, filler bin support body 11 is screwed onto on the filler bin connecting plate 12.3 that is fixed on filler bin little basic 12, link into an integrated entity by walking passage 17 between filler bin 10, the central point line of filler bin 10 surrounds rectangle.

Step 8, the pipeline of each inside modules, circuit sub-module are installed fixing, and pipeline, circuit between each module connect by hydraulic quick coupler.

After installation, as required, fill low-grade concrete in enclosure space in the steel frame as basis as basic ballast: generally, main website is basic, proportioning machine is basic and belt conveyer foundation does not need the fill concrete ballast, and low-grade concrete can be filled as basic ballast in the filler bin basis.

Claims (10)

1. a foundation-free is fast installed the transition mixing plant, comprise main website (1), proportioning machine (4), belt feeder (7), filler bin (10) and foundation structure, it is characterized in that: described foundation structure by four, main website basis (3), proportioning machine basis (6), belt conveyer foundation (9), filler bin basis separately independently basis form;

The main website support body (2) of described main website (1) is fixedly connected on main website basis (3), and main website basis (3) is the basis of steel-frame structure, and described main website (1) and main website basis (3) form master station module;

The proportioning machine support body (5) of described proportioning machine (4) is fixedly connected on proportioning machine basis (6), and described proportioning machine basis (6) is the basis of steel-frame structure, and described proportioning machine (4) and proportioning machine basis (6) form the proportioning machine module;

The belt feeder support body (8) of described belt feeder (7) is fixedly connected on belt conveyer foundation (9), and belt conveyer foundation (9) is the basis of steel-frame structure, and described belt feeder (7) and belt conveyer foundation (9) form the belt feeder module;

described filler bin (10) has a plurality of, the filler bin support body (11) of single filler bin (10) is fixedly connected on the little basis of filler bin (12), be joined together to form the filler bin basis by tie-beam (13) between the little basis of adjacent filler bin (12), described filler bin basis is the basis of steel-frame structure, link together by walking passage (17) between adjacent filler bin (10), a plurality of filler bins (10), connect single filler bin (10) walking passage (17) and by the filler bin basis that the little basis of filler bin (12) and tie-beam (13) connect into, form the filler bin module.

2. foundation-free is fast installed the transition mixing plant according to claim 1, it is characterized in that: the little basis of described filler bin (12) parallel interval is arranged in a row, the warehouse central point of a plurality of filler bins (10) forms straight line, is arranged in a side of main website, and the number of filler bin (10) is not more than four.

3. foundation-free is fast installed the transition mixing plant according to claim 1, it is characterized in that: the central point of the warehouse of described a plurality of filler bins (10) is arc line shaped, is distributed in a side of main website, wherein little basis of filler bin of outermost is vertical with the little basis of other filler bins, and the number of filler bin (10) is not more than five.

4. foundation-free is fast installed the transition mixing plant according to claim 1, it is characterized in that: the little basis of described filler bin (12) parallel interval is arranged in two rows, is distributed in the both sides of main website, and the number of filler bin (10) is not more than six.

5. foundation-free is fast installed the transition mixing plant according to claim 1, it is characterized in that: described main website basis (3) is by two parallel main website longerons (3.1), be connected to the main website crossbeam (3.2) that one group of parallel interval between two main website longerons (3.1) is arranged, be connected to the main website curb girder (3.3) that two groups of outer parallel interval of main website longeron (3.1) are arranged, and be fixed on main website longeron (3.1) upward for main website support body connecting plate (3.4) composition that connects main website support body (2), described main website longeron (3.1), main website crossbeam (3.2) is connected 3.3 with the main website curb girder) on all be welded with and connect otic placode (16), and by the connection otic placode that is spirally connected, connect.

6. foundation-free is fast installed the transition mixing plant according to claim 1, it is characterized in that: batching captain's longeron (6.1) that described proportioning machine basis (6) is arranged by one group of parallel interval, be connected to the proportioning machine crossbeam (6.3) that two parallel interval between adjacent two batching captain's longerons (6.1) are arranged, be positioned at the proportioning machine carling (6.2) of the parallel interval arrangement of the two proportioning machine crossbeams of connection (6.3) between adjacent two batching captain's longerons (6.1), and be fixed on batching captain's longeron (6.1) upward for proportioning machine support body connecting plate (6.4) composition that connects proportioning machine support body (5), described batching captain longeron (6.1), proportioning machine crossbeam (6.3) is connected 6.2 with the proportioning machine carling) on all be welded with and connect otic placode (16), and by the connection otic placode that is spirally connected, connect.

7. foundation-free is fast installed the transition mixing plant according to claim 1, it is characterized in that: the belt feeder longeron (9.1) that described belt conveyer foundation (9) is arranged by two parallel interval, be connected to the belt feeder crossbeam (9.2) between two belt feeder longerons (9.1), be connected to the belt feeder curb girder (9.3) in belt feeder longeron (9.1) outside, be connected to the belt feeder raker beam (9.4) between belt feeder longeron (9.1) and belt feeder crossbeam (9.2), and be fixed on belt feeder longeron (9.1) upward for belt feeder support body connecting plate (9.5) composition that connects belt feeder support body (8), described belt feeder longeron (9.1), belt feeder crossbeam (9.2), belt feeder curb girder (9.3) is connected 9.4 with the belt feeder raker beam) on all be welded with and connect otic placode (16), and by the connection otic placode that is spirally connected, connect.

8. foundation-free is fast installed the transition mixing plant according to claim 1, it is characterized in that: the filler bin longeron (12.1) that the little basis of described filler bin (12) is arranged by two parallel interval, be connected to the filler bin crossbeam (12.2) that one group of parallel interval between two filler bin longerons (12.1) is arranged, and the steel frame that is fixed on upper filler bin support body connecting plate (12.3) composition for connecting filler bin support body (11) of filler bin longeron (12.1), described storehouse longeron (12.1), filler bin crossbeam (12.2) is connected 13 with tie-beam) on all be welded with and connect otic placode (16), and by the connection otic placode that is spirally connected, connect.

9. foundation-free is fast installed the transition mixing plant according to claim 1, it is characterized in that: between described main website basis (3) and main website support body (2), between proportioning machine basis (6) and proportioning machine support body (5), between belt conveyer foundation (9) and belt feeder support body (8), be bolted between the little basis of filler bin (12) and filler bin support body (11) or by being connected bearing (14) connection.

10. foundation-free is fast installed the transition mixing plant according to claim 9, it is characterized in that: described connection bearing (14) by the base plate that bolt hole is arranged (14.1), the joint pin (14.2) that is used for being connected top board (14.3) with the support body bottom welding and connecting top board (14.3) and base plate (14.1) forms, and welds floor (14.4) between described joint pin (14.2) and base plate (14.1).

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