CN116766399B

CN116766399B - Solidified soil integrated forming equipment

Info

Publication number: CN116766399B
Application number: CN202311077658.8A
Authority: CN
Inventors: 邓苗; 邓建雄; 李坪峰; 李高峰; 何智浩; 高美奔; 谢卓辰; 高洋
Original assignee: Kangshiwei Technology Chengdu Co ltd; Xihua University; Chengdu Univeristy of Technology
Current assignee: Kangshiwei Technology Chengdu Co ltd; Xihua University; Chengdu Univeristy of Technology
Priority date: 2023-08-25
Filing date: 2023-08-25
Publication date: 2023-11-17
Anticipated expiration: 2043-08-25
Also published as: CN116766399A

Abstract

The application relates to the technical field of solidified soil forming, in particular to solidified soil integrated forming equipment, which comprises: the device comprises a conveying vehicle, a water tank arranged on the conveying vehicle and a raw material tank for containing solidified soil; the water tank is connected with a drain pipe, the raw material tank is provided with a stirring assembly, the upper end of the raw material tank is connected with a feed hopper, the bottom of the raw material tank is provided with a discharge hole, and the conveying vehicle is provided with a driving mechanism which is in driving connection with the stirring assembly to enable the stirring assembly to rotationally stir solidified soil in the raw material tank; the stirring assembly comprises a stirring shaft, a plurality of stirring rods and a plurality of stirring paddles, wherein the upper end of the stirring shaft is rotatably arranged at the center of the top of the raw material tank, the stirring rods are arranged on the stirring shaft, at least one stirring paddle is arranged on each stirring rod, and the distances from the stirring paddles on the stirring rods to the stirring center are different. The conveying device is simple in structure, convenient to operate, capable of conveying water and solidified soil for pretreatment of the ground pump simultaneously, flexible, practical, stable and efficient, and improves conveying efficiency.

Description

Solidified soil integrated forming equipment

Technical Field

The application relates to the technical field of solidified soil forming, in particular to solidified soil integrated forming equipment.

Background

The solidified soil formed by adding the curing agent into the soil can replace the traditional cement mortar for paving, and is environment-friendly because the soil is degradable and can be recycled, so the soil is widely popularized and used.

The construction of the solidified soil is simple, the construction can be completed only by stirring the solidified soil and then placing the stirred solidified soil on a road and then vibrating and compacting the stirred solidified soil, and the construction speed is high. However, since the road paved with the solidified soil has poor compression resistance, if the load of the vehicle is too large, the road surface is easily recessed, and the flatness of the road surface is affected. Therefore, the road paved with the solidified soil is not applied to the municipal road at present, but is mainly applied to the scenic spot road. Scenic spot roads are generally narrower, are usually 2 m-4 m, and are not suitable for the concurrent work of waterwheel, soil tank truck, mixer truck and the like. Therefore, it is necessary to provide a device on which the integrated formation of the solidified soil can be realized to complete the paving of the roadbed.

Disclosure of Invention

In order to solve the problems, the integrated forming equipment for the solidified soil is compact in structure, convenient to operate, capable of simultaneously conveying water and the solidified soil, and high in paving efficiency, and mixing is achieved.

The application provides solidified soil integrated forming equipment, which comprises: the device comprises a conveying vehicle, a water tank arranged on the conveying vehicle and a raw material tank for containing solidified soil;

the water tank is connected with a drain pipe, the raw material tank is provided with a stirring assembly, the upper end of the raw material tank is connected with a feed hopper, the bottom of the raw material tank is provided with a discharge hole, the transport vehicle is provided with a driving mechanism, and the driving mechanism is connected with the stirring assembly to enable the stirring assembly to rotationally stir solidified soil in the raw material tank; the stirring assembly comprises a stirring shaft, a plurality of stirring rods and a plurality of stirring paddles, wherein the upper end of the stirring shaft is rotatably arranged at the center of the top of the raw material tank, the stirring rods are arranged on the stirring shaft, at least one stirring paddle is arranged on each stirring rod, and the distances from the stirring paddles on the stirring rods to the stirring center are different.

Preferably, install a plurality of head tanks on the delivery wagon, a plurality of head tank bottoms intercommunication all install stirring subassembly and by actuating mechanism drive on every head tank.

Preferably, the driving mechanism comprises a power machine, a driving shaft, a driving belt, a rotating shaft, a driving gear and a driven gear, wherein the driving shaft is coaxially fixed at the output end of the power machine, the rotating shaft is rotatably arranged on the raw material tank, the driving belt is wound on the driving shaft and the rotating shaft in a transmission manner, the driving gear is coaxially fixed on the rotating shaft, and the driven gear is coaxially fixed at the top of the stirring shaft and meshed with the driving gear.

Preferably, the water tank is connected with a circulating water outlet pipe and a circulating water inlet pipe, the circulating water outlet pipe is connected with the circulating water inlet pipe through a circulating pump, the circulating water outlet pipe is connected with a water supplementing pipe for supplementing water into the raw material tank, and the water supplementing pipe is provided with a switch valve.

Preferably, an electromagnetic coupling is further arranged on the driving shaft between two adjacent rotating shafts of the driving mechanism.

Preferably, the stirring blade forms an included angle of 30-150 degrees with the bottom of the raw material tank.

Preferably, the stirring paddles on different stirring rods form different included angles with the bottom of the raw material tank.

Preferably, the included angle between the stirring blade on the stirring rod closest to the stirring shaft and the bottom of the raw material tank is more than 90 degrees, and the included angle between the stirring blade on the stirring rod farthest from the stirring shaft and the bottom of the raw material tank is less than 90 degrees.

Preferably, at least two stirring paddles are connected to the stirring rod, and the at least two stirring paddles are located at different heights.

Compared with the prior art, the application has the following beneficial effects: the solidified soil integrated forming device is compact in structure, the water tank and the raw material tank for stacking soil are integrated on the vehicle, the solidified soil and the solidifying agent can be fully mixed, and the vehicle can be used for paving the solidified soil. Through the specific setting mode to stirring subassembly for can stir more fully, be difficult to leave the dead angle, simultaneously, the head tank sets up a plurality ofly still be provided with electromagnetic coupling in the drive shaft between two adjacent pivots of actuating mechanism, through controlling electromagnetic coupling's opening, can realize the asynchronous starting to head tank stirring subassembly, reduced the load that the motor starts, promoted the volume of single stimulable, improved paving efficiency.

Drawings

FIG. 1 is a schematic view of an apparatus for integrally forming solidified soil according to a preferred embodiment of the present application;

FIG. 2 is a schematic view of another angle structure of the solidified soil integrated forming device according to a preferred embodiment of the present application;

FIG. 3 is an exploded view showing the internal structure of a raw material tank of a solidified soil integrated forming apparatus according to a preferred embodiment of the present application;

FIG. 4 is a schematic view of a driving mechanism portion of an integrated solidified soil forming apparatus according to a preferred embodiment of the present application;

FIG. 5 is a schematic view of the rotational path of a stirring assembly according to a preferred embodiment of the present application;

FIG. 6 is a schematic perspective view of a stirring assembly according to a preferred embodiment of the present application

Reference numerals illustrate:

1. a transport vehicle;

2. the water tank, 21, the drain pipe, 22, the circulation water outlet pipe, 23, the circulation water inlet pipe, 24, the circulation pump, 25, the water supplementing pipe, 26, the switching valve, 27, the water outlet pipe, 28 and the charging port;

3. the device comprises a raw material tank, 31, a feed hopper, 32, a discharge hole, 33, a plugboard switch, 34, a guide plate, 35 and a overhaul observation hole;

4. the stirring assembly, 41, the stirring shaft, 42, the stirring rod, 43 and the stirring blade;

5. the driving mechanism, 51, the power machine, 52, the driving belt, 53, the rotating shaft, 54, the driving gear, 55, the driven gear, 56, the electromagnetic coupling, 57 and the driving shaft.

Detailed Description

The technical solutions of the present application will be clearly and completely described below with reference to the accompanying drawings. In the description of the present application, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1 to 6, the solidified soil integrated forming device provided in this embodiment includes: a transport vehicle 1, a water tank 2 mounted on the transport vehicle 1, and a raw material tank 3 for holding solidified soil; wherein, the water tank 2 is connected with a drain pipe 21 for later draining. The upper end of the raw material tank 3 is connected with a feed hopper 31, and the bottom is provided with a discharge port 32 for feeding and discharging. The stirring assembly 4 is arranged on the raw material tank 3, the driving mechanism 5 is arranged on the conveying vehicle 1, and the driving mechanism is connected with the stirring assembly 4 to enable the stirring assembly to rotationally stir solidified soil in the raw material tank 3, so that the follow-up discharging is prevented from being influenced by deposition.

The flashboard switch 33 is installed to head tank 3 discharge gate 32 department, and head tank 3 discharge gate 32 below is equipped with stock guide 34, the ejection of compact guide of being convenient for. The material tank 3 is provided with a manhole 35.

Wherein, stirring subassembly 4 includes (mixing) shaft 41, a plurality of puddler 42 and a plurality of stirring paddle 43, the (mixing) shaft 41 upper end is rotated and is installed at head tank 3 top central authorities, a plurality of puddler 42 are installed on (mixing) shaft 41, install at least one stirring paddle 43 on every puddler 42, the stirring paddle 43 on a plurality of puddler 42 is different to the distance of stirring center, then can stir the solidification soil in each position in the head tank 3, make the material in the head tank 3 mix the misce bene always, avoid taking place the deposit and deposit, influence follow-up ejection of compact and use. The stirring blade 43 forms a certain included angle with the bottom of the raw material tank 3, preferably 60-80 degrees, so as to improve the stirring effect in the raw material tank 3.

In this embodiment, because install a plurality of puddlers on the (mixing) shaft, and the puddler sets up to the distance of (mixing) shaft differently, in stirring rotation in-process, the centrifugal force that the puddler that is far away from the (mixing) shaft receives is big more, and its stirring ability is stronger, has avoided solidification soil to fly out the biggest scope that the puddler can stir, causes the dead zone. Simultaneously, in the stirring process, still set up stirring paddle and the bottom of head tank and present certain contained angle, and every stirring paddle and the angle portion inequality of the contained angle that the head tank presented, avoided in the stirring process, solidification soil is only towards fixed direction motion for solidification soil can form the collision between different stirring paddle through setting up stirring paddle's slope contained angle inequality, upset, can make the mix more even. This embodiment has also set up stirring paddle in the nearby position of (mixing) shaft, and stirring paddle presents certain contained angle with the bottom of head tank, has avoided solidification soil to pile up near the (mixing) shaft, can not realize the mix, simultaneously, has set up a plurality of stirring paddles on each puddler for can stir the mix at the different pile up height of solidification soil, make the mix more abundant.

A plurality of material tanks 3 are installed on the transport cart 1, the bottoms of the material tanks 3 are communicated, and each material tank 3 is provided with a stirring assembly 4 and is in driving connection by a driving mechanism 5. In this embodiment, two material tanks 3 are provided, the bottoms are mutually communicated, and the materials in the two material tanks 3 are the same and the material levels are also the same. Every head tank 3 is interior all to establish stirring subassembly 4, compares in an equivalent material in head tank 3, and the load of a single stirring subassembly 4 is less, and the life-span is higher, and stirring effect is better.

As shown in fig. 1 to 4, the drive mechanism 5 includes a power machine 51, a drive shaft 57, a drive belt 52, a rotation shaft 53, a drive gear 54, and a driven gear 55. The driving shaft 57 is coaxially fixed at the output end of the power machine 51, the rotating shaft 53 is rotatably installed on the raw material tank 3, the driving belt 52 is wound on the driving shaft 57 and the rotating shaft 53 in a transmission manner, the driving gear 54 is coaxially fixed on the rotating shaft 53, and the driven gear 55 is coaxially fixed on the top of the stirring shaft 41 and meshed with the driving gear 54.

The power machine 51 may use an internal combustion engine or an electric motor powered by fuel oil to continuously output rotational power.

The power machine 51 is started, the driving shaft 57 rotates, the rotating shaft 53 is driven to rotate through the transmission of the driving belt 52, the driving gear 54 rotates, and the driven gear 55 rotates along with the rotating shaft, so that the purpose of driving the stirring shafts 41 to rotate is achieved, and the stirring shafts 41 can be driven to rotate at the same time, and the stirring shafts are simple, efficient, flexible and practical.

In another embodiment, an electromagnetic coupling 56 is also provided on the shaft between two adjacent stirring shafts of the drive mechanism. By providing the electromagnetic coupling 56, an asynchronous start of the two stirring shafts 41 can be achieved. Before the solidified soil is loaded in the raw material tank 3 and stirred, the solidified soil is in a compacted state, at the moment, the resistance of the stirring shaft 41 is the largest, and can be 3-4 times of the resistance of the stirring shaft after the stirring shaft is started, so that in the embodiment, the electromagnetic coupling 56 is arranged between the rotating shafts connecting the two stirring shafts, and when the stirring shaft is started, the electromagnetic coupling 56 is controlled to be disconnected, at the moment, only the first stirring shaft is started, and when the first stirring shaft is started and rotated smoothly, the electromagnetic coupling 56 is controlled to be connected, so that the second stirring shaft is connected to the rotating shaft, and the starting of the second stirring shaft is realized. Through the arrangement of the mode, aiming at the same power source, the load which can be loaded in the raw material tank is increased by 30% for single stirring, and the stirring efficiency is improved.

In another embodiment, the electromagnetic coupling 56 is also disposed on the stirring shaft, and during stirring, it is found that the stirring assembly often encounters a jam, but 80% of the jam can be resolved by increasing the power of the stirring assembly, for example, by increasing the power of the engine, and after the jam is resolved, the stirring assembly can smoothly rotate to stir. Therefore, in order to avoid that the stopping inspection is needed to be finally carried out after the blocking is encountered every time, in the embodiment, after the blocking is encountered, the number of the connected rotating shafts is reduced by directly controlling the on-off of the electromagnetic coupling 56 on the stirring shafts, so that the motor has more power to drive the stirring shafts with the blocking, the blocking is solved, and after the blocking is well solved, other disconnected stirring shafts are connected into the rotating shafts. For example, when the stirring shaft in the second raw material tank is blocked, the electromagnetic coupling 56 on the stirring shaft in the first raw material tank is controlled to enable the stirring shaft in the first raw material tank to be separated from the rotating shaft, the motor has enough power to drive the stirring shaft in the second raw material tank, and when the problem of blocking of the stirring shaft in the second raw material tank is solved, the electromagnetic coupling 56 on the stirring shaft in the first raw material tank is controlled again to enable the stirring shaft in the first raw material tank to be connected to the rotating shaft for stirring.

Meanwhile, a circulating water outlet pipe 22 and a circulating water inlet pipe 23 are connected to the water tank 2, and the circulating water outlet pipe 22 is connected with the circulating water inlet pipe 23 through a circulating pump 24 so as to circulate water in the water tank 2. The circulating pump 24 is in driving connection with the power machine 51 of the driving mechanism 5, and the power machine 51 can apply work to the stirring assembly 4 and the circulating pump 24 at the same time after being started, so that the whole occupied space is reduced; a feed port 28 is provided above the water tank 2, a curing agent is added through the feed port 28, and after the curing agent is fully mixed with water, water is supplied into the two raw material tanks 3 through a plurality of water outlet holes provided on the water supply pipe 25.

And, circulation outlet pipe 22 is connected with a moisturizing pipe 25 that is used for moisturizing in to the head tank 3, is equipped with a plurality of apopores on the moisturizing pipe 25, can moisturizing in two head tanks 3 simultaneously, and the material mixing efficiency in head tank 3 can be improved to the more point of intaking. The water supply pipe 25 is provided with an on-off valve 26, which is opened and closed as needed.

The circulating water outlet pipe 22 and the circulating water inlet pipe 23 are both connected with a water outlet pipe 27, and the water outlet pipes 27 are both provided with a switch valve 26, so that water can be discharged from multiple positions, and the switch valve 26 can be switched on and off according to requirements. The circulation water inlet pipe 23 is also provided with a switch valve 26, and when water is not required to enter the water tank 2 through the circulation water inlet pipe 23, the switch valve 26 is closed.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the application.

Claims

1. A solidified soil integrated forming device, comprising: the device comprises a conveying vehicle, a water tank arranged on the conveying vehicle and a raw material tank for containing solidified soil;

the water tank is connected with a drain pipe, the raw material tank is provided with a stirring assembly, the upper end of the raw material tank is connected with a feed hopper, the bottom of the raw material tank is provided with a discharge hole, and the conveying vehicle is provided with a driving mechanism which is in driving connection with the stirring assembly to enable the stirring assembly to rotationally stir solidified soil in the raw material tank; the stirring assembly comprises a stirring shaft, a plurality of stirring rods and a plurality of stirring paddles, the upper end of the stirring shaft is rotatably arranged at the center of the top of the raw material tank, the stirring rods are arranged on the stirring shaft, at least one stirring paddle is arranged on each stirring rod, and the distances from the stirring paddles on the stirring rods to the stirring center are different;

the driving mechanism comprises a power mechanism, a driving shaft, a driving belt, a rotating shaft, a driving gear and a driven gear, wherein the driving shaft is coaxially fixed at the output end of the power machine, the rotating shaft is rotatably arranged on the raw material tank, the driving belt is wound on the driving shaft and the rotating shaft in a transmission manner, the driving gear is coaxially fixed on the rotating shaft, and the driven gear is coaxially fixed at the top of the stirring shaft and meshed with the driving gear;

an electromagnetic coupling is further arranged on the rotating shaft between two adjacent stirring shafts of the driving mechanism.

2. The solidified soil integrated forming device as claimed in claim 1, wherein: install a plurality of head tanks on the delivery wagon, a plurality of head tank bottoms intercommunication all install stirring subassembly and by actuating mechanism drive on every head tank.

3. The solidified soil integrated forming device as claimed in claim 1, wherein: the water tank is connected with a circulating water outlet pipe and a circulating water inlet pipe, the circulating water outlet pipe is connected with the circulating water inlet pipe through a circulating pump, the circulating water outlet pipe is connected with a water supplementing pipe for supplementing water into the raw material tank, and the water supplementing pipe is provided with a switch valve.

4. The solidified soil integrated forming device as claimed in claim 1, wherein: and an electromagnetic coupling is further arranged on the stirring shaft.

5. The solidified soil integrated forming device as claimed in claim 1, wherein: the stirring blade and the bottom of the raw material tank form an included angle of 30-150 degrees.

6. The solidified soil integrated forming device as claimed in claim 1, wherein: the included angles between the stirring paddles positioned on different stirring rods and the bottom of the raw material tank are different.

7. The solidified soil integrated forming device as claimed in claim 1, wherein: the included angle between the stirring blade on the stirring rod closest to the stirring shaft and the bottom of the raw material tank is more than 90 degrees, and the included angle between the stirring blade on the stirring rod farthest from the stirring shaft and the bottom of the raw material tank is less than 90 degrees.

8. The solidified soil integrated forming device as claimed in claim 1, wherein: at least two stirring paddles are connected to the stirring rod, and the at least two stirring paddles are located at different heights.