CN220784434U - Concrete, stabilized soil stirring discharging device - Google Patents

Abstract

The utility model relates to the technical field of concrete stirring devices, and discloses a concrete and stabilized soil stirring and discharging device, which comprises a concrete main machine, a stabilized soil main machine and a conveying mechanism which are sequentially arranged, wherein the conveying mechanism comprises a spiral conveying mechanism or a belt conveying mechanism; the stirring materials generated after the stirring of the concrete main machine enter the stabilized soil main machine, are conveyed to the spiral conveying mechanism through the stabilized soil main machine and are output by the spiral conveying mechanism; the stirring materials fall into the stirring cavity of the stabilized soil main machine from the stirring cavity of the concrete main machine, and the stirring materials generated after stirring by the stabilized soil main machine are output by the belt conveying mechanism; the utility model provides a stirring and discharging device for concrete and stabilized soil, which solves the problem of higher cost of the existing stabilized soil and concrete production equipment.

Description

Concrete, stabilized soil stirring discharging device

Technical Field

The utility model relates to the technical field of concrete stirring devices, in particular to a stirring and discharging device for concrete and stabilized soil.

Background

At present, the existing concrete main machine and the existing stabilized soil main machine are used separately and are respectively used for producing concrete and stabilized soil, two sets of equipment are required to be arranged separately on a production site, and the cost is high, so that how to enable one set of combined equipment to realize the sharing of part of equipment and facilitate the production of the stabilized soil and the concrete becomes the problem to be solved at present.

Disclosure of Invention

The utility model aims to provide a stirring and discharging device for concrete and stabilized soil, which is used for solving at least one of the problems in the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the concrete and stabilized soil stirring and discharging device comprises a concrete main machine, a stabilized soil main machine and a conveying mechanism which are sequentially arranged, wherein the conveying mechanism comprises a spiral conveying mechanism or a belt conveying mechanism;

the stirring materials generated after the stirring of the concrete main machine enter the stabilized soil main machine, are conveyed to the spiral conveying mechanism through the stabilized soil main machine and are output by the spiral conveying mechanism;

the stirring material falls into the stirring cavity of the stabilized soil main machine from the stirring cavity of the concrete main machine, and the stirring material generated after stirring by the stabilized soil main machine is output by the belt conveying mechanism.

According to the technical scheme, when concrete production is carried out, the main stabilizing machine does not work, only plays a role in conveying finished concrete to the belt conveying mechanism, and the stirring cavity of the main stabilizing machine is only used as a finished concrete conveying channel; when the stabilized soil is produced, the concrete main machine does not work, the concrete main machine only plays a first simple stirring role, and the discharging door of the concrete main machine is in an open state, and the stirring cavity of the concrete main machine is only used as a channel for discharging to the stabilized soil main machine.

Because the device is respectively matched with different equipment with the stirring main machine, namely, when concrete production is needed, all materials are weighed and then are simultaneously put into the concrete main machine for stirring, finished concrete is discharged to the stable concrete main machine after being uniformly stirred, the finished concrete is conveyed to the spiral conveying mechanism again as an output mechanism of the concrete by the spiral conveying blade in the stable concrete main machine, and is conveyed to the concrete conveying tank truck by the spiral conveying mechanism, the concrete is subjected to one-time process, and then each process is repeatedly produced.

When the production of stabilized soil is carried out, the flow is directly input into the concrete host machine through each material electronic weighing control, at the moment, the unloading door of the concrete host machine is in an open state and can directly fall into the stabilized soil host machine for stirring, the stabilized soil host machine is directly conveyed to the belt conveying mechanism in an assembly line mode after being uniformly stirred by the spiral conveying blades, and the stabilized soil is conveyed into the stabilized soil conveying vehicle through the belt conveying mechanism, so that continuous production of a stabilized soil assembly line is realized.

To sum up, this technical scheme adopts a set of combination equipment to realize the sharing of partial equipment, and convenient production stabilized soil and concrete, equipment cost is lower, has also can make the produced concrete of stirring host computer and stabilized soil homoenergetic stable output when having promoted stabilized soil stirring effect to accord with stabilized soil assembly line production, also accord with every flow production of concrete more, be equivalent to the finished product that two kinds of productions guarantee the quality more.

Further, screw conveying mechanism includes first support, second support, urceolus, helical blade and hydraulic motor, fixed mounting has outer ring gear on the urceolus, hydraulic motor is connected with the gear, gear and outer ring gear meshing drive urceolus rotate, and helical blade coaxial fixed setting is in the urceolus, running fit between helical blade and the urceolus, the urceolus rotates with first support and second support and is connected. That is, the spiral blade is in a static state, so that the wall hanging of concrete can be reduced, and the output effect of the concrete is better.

Further, for better realization to the segmentation installation of the cover body, promote the production installation effectiveness of the cover body, belt conveyor includes the cover body, the slope of the cover body sets up, the lower extreme of the cover body is equipped with uncovered, uncovered and the discharge end intercommunication of stabilizing soil host computer, the upper end of the cover body is equipped with the discharge gate, the cover body includes a plurality of cover body units of interconnect, through flange fixed connection between the adjacent cover body unit.

Further, in order to promote the smoothness nature of stable soil host computer ejection of compact, the discharge end of stable soil host computer is equipped with the discharge gate, the discharge gate stretches into in the uncovered, one side of discharge gate is equipped with ejection of compact opening.

Further, in order to promote the structural strength of the cover body, cover body unit includes the upper end plate and sets up left side board and the right side board in upper end plate both sides respectively, be equipped with a plurality of connection crossbeam between the lower extreme of left side board and right side board.

Further, for the connection installation of convenient flange, flange includes upper junction plate, left side connecting plate, right side connecting plate and the lower connecting plate that circumference around setting, through bolt fixed connection between the flange.

Further, in order to achieve an automatic tensioning effect on the belt conveying mechanism, a belt tensioning mechanism is arranged at a position, close to the opening, on the cover body.

Further, in order to provide a specific belt tensioning mechanism, make things convenient for the concrete installation of each subassembly, belt tensioning mechanism includes hydraulic push rod, and two hydraulic push rods set up respectively on left side board and right side board, all be equipped with the bar hole on left side board and the right side board, hydraulic push rod's telescopic link is connected with the connecting axle, connecting axle and bar hole sliding fit, the connecting axle stretches into the drive wheel fixed connection of the internal one end of cover and belt conveying mechanism.

Further, in order to realize the perpendicular blanking effect that can be better, guarantee the concentration degree of blanking, the upper end of the cover body is equipped with the ejection of compact cover, the lower extreme of ejection of compact cover is equipped with the blanking mouth.

Further, in order to guarantee the stable installation of the cover body, the both sides of the cover body are equipped with the support frame respectively, the support frame includes vertical support frame and slope support frame, is equipped with the stull between two vertical support frames, the lower extreme and the ground fixed connection of vertical support frame, the upper end of vertical support frame and the upper end of slope support frame all with cover body fixed connection.

Further, in order to facilitate the below of removing the concrete host computer with the stabilized soil host computer, in order to guarantee the stability in the stabilized soil host computer use simultaneously, the lower extreme of stabilized soil host computer is equipped with the supporting seat, the lower extreme of supporting seat is equipped with the walking wheel, one side of walking wheel is equipped with the mount pad, the mount pad passes through bolt and ground fixed connection.

The beneficial effects of the utility model are as follows: according to the technical scheme, when concrete production is carried out, the main stabilizing machine does not work, only plays a role in conveying finished concrete to the belt conveying mechanism, and the stirring cavity of the main stabilizing machine is only used as a finished concrete conveying channel; when the stabilized soil is produced, the concrete main machine does not work, the concrete main machine only plays a first simple stirring role, and the discharging door of the concrete main machine is in an open state, and the stirring cavity of the concrete main machine is only used as a channel for discharging to the stabilized soil main machine.

Because the device is respectively matched with different equipment with the stirring main machine, namely, when concrete production is needed, all materials are weighed and then are simultaneously put into the concrete main machine for stirring, finished concrete is discharged to the stable concrete main machine after being uniformly stirred, the finished concrete is conveyed to the spiral conveying mechanism again as an output mechanism of the concrete by the spiral conveying blade in the stable concrete main machine, and is conveyed to the concrete conveying tank truck by the spiral conveying mechanism, the concrete is subjected to one-time process, and then each process is repeatedly produced.

When the production of stabilized soil is carried out, the flow is directly input into the concrete host machine through each material electronic weighing control, at the moment, the unloading door of the concrete host machine is in an open state and can directly fall into the stabilized soil host machine for stirring, the stabilized soil host machine is directly conveyed to the belt conveying mechanism in an assembly line mode after being uniformly stirred by the spiral conveying blades, and the stabilized soil is conveyed into the stabilized soil conveying vehicle through the belt conveying mechanism, so that continuous production of a stabilized soil assembly line is realized.

To sum up, this technical scheme adopts a set of combination equipment to realize the sharing of partial equipment, and convenient production stabilized soil and concrete, equipment cost is lower, has also can make the produced concrete of stirring host computer and stabilized soil homoenergetic stable output when having promoted stabilized soil stirring effect to accord with stabilized soil assembly line production, also accord with every flow production of concrete more, be equivalent to the finished product that two kinds of productions guarantee the quality more.

Drawings

FIG. 1 is a schematic view of the structure of the stabilized soil produced by the present utility model;

FIG. 2 is a schematic view of another view of the production of stabilized soil in accordance with the present utility model;

FIG. 3 is a schematic view of the structure of the concrete produced by the present utility model;

fig. 4 is a schematic structural diagram of a stabilized soil host in the present utility model.

In the figure: a concrete main machine 1; a screw conveying mechanism 2; an outer cylinder 2.1; a helical blade 2.2; a hydraulic motor 2.3; an outer ring gear 2.4; 2.5 gears; a first bracket 2.6 and a second bracket 2.7; a stabilized soil host 3; a belt conveying mechanism 4; an opening 5; a cover 6; a connection flange 7; a discharge nozzle 8; a discharge opening 9; a hydraulic push rod 10; a bar-shaped hole 11; a connecting shaft 12; a discharge cover 13; a blanking port 14; a vertical support 15; a tilting support frame 16; a cross brace 17; a support base 18; a road wheel 19; and a mounting base 20.

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the present utility model will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the drawings is only some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art. It should be noted that the description of these examples is for aiding in understanding the present utility model, but is not intended to limit the present utility model.

Example 1:

as shown in fig. 1 to 4, the embodiment provides a concrete and stabilized soil stirring and discharging device, which comprises a concrete main machine 1, a stabilized soil main machine 3 and a conveying mechanism which are sequentially arranged, wherein the conveying mechanism comprises a spiral conveying mechanism 2 or a belt conveying mechanism 4;

as shown in fig. 3, the stirred materials generated after the stirring of the concrete main machine 1 enter the stabilized soil main machine 3, are conveyed to the screw conveying mechanism 2 through the stabilized soil main machine 3 and are output by the screw conveying mechanism 2;

as shown in fig. 1, the stirred material falls into the stirring cavity of the stabilized soil main machine 3 from the stirring cavity of the concrete main machine 1, and the stirred material generated after stirring by the stabilized soil main machine 3 is output by the belt conveying mechanism 4.

In the technical scheme, when concrete production is carried out, as shown in fig. 3, the main stabilizing machine 3 does not work, the main stabilizing machine 3 only plays a role in conveying finished concrete to the belt conveying mechanism 4, and the stirring cavity of the main stabilizing machine 3 is only used as a channel for conveying the finished concrete; when the stabilized soil is produced, as shown in fig. 1, the concrete main machine 1 does not work, the concrete main machine 1 only plays a first simple stirring role, and in addition, the discharging door of the concrete main machine 1 is in an open state, and the stirring cavity of the concrete main machine 1 is only used as a channel for discharging to the stabilized soil main machine 3.

Because the device is respectively matched with different equipment with the stirring main machine, namely, when concrete production is required, as shown in fig. 3, all materials are weighed and then are simultaneously put into the concrete main machine 1 for stirring, finished concrete is discharged to the stabilized soil main machine 3 after being stirred uniformly, the finished concrete is conveyed to the spiral conveying mechanism 2 again by taking a spiral conveying blade in the stabilized soil main machine 3 as an output mechanism of the concrete, the finished concrete is conveyed to a concrete conveying tank truck by the spiral conveying mechanism 2, and each process is repeatedly produced after one-time process of the concrete is finished.

As shown in fig. 1, when stabilized soil is produced, the material is directly put into the concrete host machine 1 through electronic weighing control flow of each material, at this time, the unloading door of the concrete host machine 1 is in an open state and can directly fall into the stabilized soil host machine 3 for stirring, and the material is directly conveyed to the belt conveying mechanism 4 in a pipeline mode after being uniformly stirred by the spiral conveying blades in the stabilized soil host machine 3 and is conveyed into the stabilized soil conveying vehicle through the belt conveying mechanism 4, so that continuous production of a stabilized soil pipeline is realized.

To sum up, this technical scheme adopts a set of combination equipment to realize the sharing of partial equipment, and convenient production stabilized soil and concrete, equipment cost is lower, has also can make the produced concrete of stirring host computer and stabilized soil homoenergetic stable output when having promoted stabilized soil stirring effect to accord with stabilized soil assembly line production, also accord with every flow production of concrete more, be equivalent to the finished product that two kinds of productions guarantee the quality more.

Example 2:

this example was optimized based on example 1 above.

As shown in fig. 3, the screw conveying mechanism 2 comprises a first bracket 2.6, a second bracket 2.7, an outer barrel 2.1, a screw blade 2.2 and a hydraulic motor 2.3, wherein an outer gear ring 2.4 is fixedly arranged on the outer barrel 2.1, the hydraulic motor 2.3 is connected with a gear 2.5, the gear 2.5 is meshed with the outer gear ring 2.4 to drive the outer barrel 2.1 to rotate, the screw blade 2.2 is coaxially and fixedly arranged in the outer barrel 2.1, the screw blade 2.2 is in running fit with the outer barrel 2.1, and the outer barrel 2.1 is in running connection with the first bracket 2.6 and the second bracket 2.7. That is, the spiral blade 2.2 is in a static state, the outer cylinder 2.1 rotates, the design can reduce concrete wall hanging, and the output effect of concrete is better.

It should be noted that, under the condition of customer's requirement, the equipment does not need to stabilize the soil host computer 3 when not needing to produce stabilized soil, does not need to have belt conveyor 4 at the same time, needs to adopt the screw conveyor 2 of built-in screw blade 2.2 to carry the concrete to the concrete transportation tank car, thereby screw conveyor 2 rotates built-in screw blade 2.2 to carry the finished concrete to the concrete transportation tank car.

Example 3:

this example was optimized based on example 1 above.

For better realization to the segmentation installation of cover body 6, promote the production installation effectiveness of cover body 6, belt conveyor 4 includes cover body 6, and cover body 6 slope sets up, and the lower extreme of cover body 6 is equipped with uncovered 5, and uncovered 5 communicates with the discharge end of stabilizing soil host computer 3, and the upper end of cover body 6 is equipped with the discharge gate, and cover body 6 includes a plurality of cover body units of interconnect, through flange 7 fixed connection between the adjacent cover body unit.

Example 4:

this example was optimized based on example 1 above.

In order to promote the smoothness nature of stable soil host computer 3 ejection of compact, the discharge end of stable soil host computer 3 is equipped with ejection of compact mouth 8, and ejection of compact mouth 8 stretches into in the uncovered 5, and one side of ejection of compact mouth 8 is equipped with ejection of compact opening 9.

Example 5:

this example was optimized based on example 3 above.

In order to improve the structural strength of the cover body 6, the cover body unit comprises an upper end plate, a left side plate and a right side plate which are respectively arranged on two sides of the upper end plate, and a plurality of connecting cross beams are arranged between the lower ends of the left side plate and the right side plate.

Example 6:

this example was optimized based on example 3 above.

In order to facilitate the connection and installation of the connecting flange 7, the connecting flange 7 comprises an upper connecting plate, a left connecting plate, a right connecting plate and a lower connecting plate which are circumferentially arranged in a surrounding mode, and the connecting flanges 7 are fixedly connected through bolts.

Example 7:

this example was optimized based on example 6 above.

In order to realize the automatic tensioning effect to belt conveyor 4, the position that is close to uncovered 5 on the cover body 6 is equipped with belt tensioner, in order to provide a specific belt tensioner, make things convenient for the concrete installation of each subassembly, belt tensioner includes hydraulic push rod 10, two hydraulic push rods 10 set up respectively on left side board and right side board, all be equipped with bar hole 11 on left side board and the right side board, hydraulic push rod 10's telescopic link is connected with connecting axle 12, connecting axle 12 and bar hole 11 sliding fit, the one end that connecting axle 12 stretched into in the cover body 6 and belt conveyor 4's drive wheel fixed connection.

Example 8:

this example was optimized based on example 3 above.

In order to better realize the vertical blanking effect, guarantee the concentration of blanking, the upper end of the cover body 6 is provided with a discharging cover 13, and the lower end of the discharging cover 13 is provided with a blanking port 14.

Example 9:

this example was optimized based on example 3 above.

In order to ensure stable installation of the cover body 6, two sides of the cover body 6 are respectively provided with a support frame, each support frame comprises a vertical support frame 15 and an inclined support frame 16, a transverse support 17 is arranged between the two vertical support frames 15, the lower ends of the vertical support frames 15 are fixedly connected with the ground, and the upper ends of the vertical support frames 15 and the upper ends of the inclined support frames 16 are fixedly connected with the cover body 6.

Example 10:

this example was optimized based on example 1 above.

In order to facilitate moving the stabilized soil host 3 to the lower side of the concrete host 1, and simultaneously in order to ensure the stability of the stabilized soil host 3 in the use process, the lower end of the stabilized soil host 3 is provided with a supporting seat 18, the lower end of the supporting seat 18 is provided with a travelling wheel 19, one side of the travelling wheel 19 is provided with a mounting seat 20, and the mounting seat 20 is fixedly connected with the ground through a bolt.

Finally, it should be noted that: the above is only a preferred embodiment of the present utility model and is not intended to limit the scope of the present utility model. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. A concrete, stabilized soil stirring discharging device, its characterized in that: the device comprises a concrete main machine, a stabilized soil main machine and a conveying mechanism which are sequentially arranged, wherein the conveying mechanism comprises a spiral conveying mechanism or a belt conveying mechanism;

the stirring materials generated after the stirring of the concrete main machine enter the stabilized soil main machine, are conveyed to the spiral conveying mechanism through the stabilized soil main machine and are output by the spiral conveying mechanism;

the stirring material falls into the stirring cavity of the stabilized soil main machine from the stirring cavity of the concrete main machine, and the stirring material generated after stirring by the stabilized soil main machine is output by the belt conveying mechanism.

2. The concrete and stabilized soil mixing and discharging device according to claim 1, wherein: the spiral conveying mechanism comprises a first support, a second support, an outer cylinder, a spiral blade and a hydraulic motor, an outer gear ring is fixedly arranged on the outer cylinder, the hydraulic motor is connected with a gear, the gear is meshed with the outer gear ring to drive the outer cylinder to rotate, the spiral blade is coaxially and fixedly arranged in the outer cylinder, the spiral blade is in running fit with the outer cylinder, and the outer cylinder is in running connection with the first support and the second support.

3. The concrete and stabilized soil mixing and discharging device according to claim 1, wherein: the belt conveying mechanism comprises a cover body, the cover body is obliquely arranged, the lower end of the cover body is provided with an opening, the opening is communicated with the discharge end of the stabilized soil host, the upper end of the cover body is provided with a discharge hole, the cover body comprises a plurality of cover body units which are mutually connected, and the adjacent cover body units are fixedly connected through connecting flanges.

4. The concrete and stabilized soil mixing and discharging device according to claim 1, wherein: the discharge end of the stabilized soil main machine is provided with a discharge nozzle, the discharge nozzle extends into the opening, and one side of the discharge nozzle is provided with a discharge opening.

5. A concrete, stabilized soil mixing and discharging device as claimed in claim 3, wherein: the cover body unit comprises an upper end plate, a left side plate and a right side plate which are respectively arranged on two sides of the upper end plate, and a plurality of connecting cross beams are arranged between the lower ends of the left side plate and the right side plate.

6. A concrete, stabilized soil mixing and discharging device as claimed in claim 3, wherein: the connecting flange comprises an upper connecting plate, a left connecting plate, a right connecting plate and a lower connecting plate which are circumferentially arranged in a surrounding mode, and the connecting flanges are fixedly connected through bolts.

7. The concrete and stabilized soil mixing and discharging device as claimed in claim 6, wherein: the belt tensioning mechanism is arranged at a position, close to the opening, on the cover body and comprises a hydraulic push rod, the two hydraulic push rods are respectively arranged on a left side plate and a right side plate, strip-shaped holes are formed in the left side plate and the right side plate, a telescopic rod of the hydraulic push rod is connected with a connecting shaft, the connecting shaft is in sliding fit with the strip-shaped holes, and one end, extending into the cover body, of the connecting shaft is fixedly connected with a driving wheel of the belt conveying mechanism.

8. A concrete, stabilized soil mixing and discharging device as claimed in claim 3, wherein: the upper end of the cover body is provided with a discharging cover, and the lower end of the discharging cover is provided with a blanking port.

9. A concrete, stabilized soil mixing and discharging device as claimed in claim 3, wherein: the support frame is equipped with respectively to the both sides of the cover body, the support frame includes vertical support frame and slope support frame, is equipped with the stull between two vertical support frames, the lower extreme and the ground fixed connection of vertical support frame, the upper end of vertical support frame and the upper end of slope support frame all with cover body fixed connection.

10. The concrete and stabilized soil mixing and discharging device according to claim 1, wherein: the lower extreme of stabilized soil host computer is equipped with the supporting seat, the lower extreme of supporting seat is equipped with the walking wheel, one side of walking wheel is equipped with the mount pad, the mount pad passes through bolt and ground fixed connection.