CN116118001A

CN116118001A - Automatic production system for red mud foam lightweight concrete

Info

Publication number: CN116118001A
Application number: CN202310137882.5A
Authority: CN
Inventors: 骆俊晖; 莫鹏; 黄海峰; 唐琼祯; 李育林; 畅振超; 李召峰; 盘柱
Original assignee: Guangxi Beitou Transportation Maintenance Technology Group Co Ltd
Current assignee: Guangxi Beitou Transportation Maintenance Technology Group Co Ltd
Priority date: 2023-02-20
Filing date: 2023-02-20
Publication date: 2023-05-16

Abstract

The invention relates to the field of light concrete processing, in particular to an automatic production system of red mud foam light concrete, which is characterized in that in the prior art, raw materials are not uniformly stirred sufficiently, concrete on the inner wall of a stirring cylinder is stuck and agglomerated so as not to be scraped, manual scraping is time-consuming and labor-consuming, equipment is corroded due to the corrosiveness of red mud, and in order to solve the problems, the invention provides an automatic production system of red mud foam light concrete, which is characterized in that the stirring cylinder is of a two-layer structure, an outer cylinder and an inner cylinder are arranged, so that the inner cylinder can independently rotate, and the raw materials can be uniformly and effectively stirred by arranging two motors; and through carrying out the intercommunication with annular hollow tube and flexible pipe inner wall, thereby can ensure that hydroenergy all spouts from the shower nozzle and finally flows into the inner tube through annular hollow tube and flexible pipe when stirring, when striking off the clearance, increase water pressure through the water pump to carry out effectual washing to the inner tube inner wall and strike off, thereby guarantee that red mud can not corrode equipment.

Description

Automatic production system for red mud foam lightweight concrete

Technical Field

The invention relates to the field of light concrete processing, in particular to an automatic production system for red mud foam light concrete.

Background

The foaming concrete, namely foam concrete or light concrete, is formed by fully foaming a foaming agent in a mechanical way through a foaming system of a foaming machine, uniformly mixing the foam with cement paste, then carrying out cast-in-situ construction or mould forming through a pumping system of the foaming machine, and naturally curing to form a novel light heat insulation material containing a large number of closed pores; the light foam concrete block is a novel building material which is light porous, heat-insulating, good in fireproof performance, nailable, sawable, planable and has a certain shock resistance.

At present, when the red mud lightweight foam concrete is processed and manufactured, the technical problems that raw materials are not uniformly and sufficiently stirred, the concrete on the inner wall of a stirring cylinder is stuck and agglomerated and cannot be scraped, manual scraping is time-consuming and labor-consuming, and equipment can be corroded due to corrosiveness of the red mud can be solved, and therefore the automatic production system for the red mud lightweight foam concrete is provided.

Disclosure of Invention

In order to solve the technical problems that raw materials are not uniformly and fully stirred, concrete on the inner wall of a stirring cylinder is stuck and agglomerated so that scraping cannot be performed, manual scraping is time-consuming and labor-consuming, and equipment can be corroded due to corrosiveness of red mud.

The invention is realized by adopting the following technical scheme: the automatic production system device for the red mud foam lightweight concrete is characterized by comprising a base, a top cover, a stirring cylinder, a stirring assembly, a blanking assembly and a cleaning assembly;

the base is fixed with the outside, a hydraulic lifting rod is further installed on the base, and the output end of the hydraulic lifting rod is connected with an installation bottom plate;

the stirring cylinder is arranged on the mounting bottom plate and comprises an inner cylinder and an outer cylinder, an interlayer is formed between the inner cylinder and the outer cylinder, a discharge hole is formed in the bottom of the outer cylinder, a discharging auxiliary assembly is arranged at the discharge hole, and a fixing assembly for mounting the inner cylinder is further arranged in the interlayer;

the top cover is buckled on the outer cylinder, and a feed hopper and a feed pipe are also arranged on the top cover and are respectively used for inputting raw materials and foam;

the stirring assembly comprises a first motor, a stirring shaft, stirring blades, a telescopic mounting tube and a second motor, wherein the first motor is mounted on the top cover, the output end of the first motor is connected with the stirring shaft, the stirring shaft is coaxially arranged in the inner cylinder, two telescopic mounting tubes are symmetrically mounted on the upper side and the lower side of the stirring shaft, the stirring blades are mounted at the other end of the telescopic mounting tube, one side of each stirring blade is in contact with the inner wall of the inner cylinder, the second motor is mounted at the bottom of the interlayer, and the output end of the second motor is used for driving the inner cylinder to rotate;

the blanking assembly comprises a blanking hopper, a blanking gate and a shortcut pipe, wherein the blanking hopper is arranged at the bottom of the outer cylinder, the blanking gate is arranged at the bottom of the blanking hopper, the shortcut pipe is arranged at the bottom of the blanking gate, and the shortcut pipe is connected with the pump;

the mounting bottom plate is also provided with a cleaning component;

in the scheme, the bottom of the feed hopper and the feeding pipe are both extended into the inner cylinder, and the diameter of the feeding pipe is larger than the diameter of a discharge hole of the foaming machine, and the bottom of the feed hopper and the feeding pipe are extended into the inner cylinder, so that waste and omission of raw materials can be avoided during feeding; the diameter of the feeding pipe is larger than that of the discharging hole of the foaming machine, so that the foaming machine is facilitated to directly inject foam into the inner cylinder.

As the further improvement of above-mentioned scheme, the bottom discharge gate of inner tube is half open setting, just discharge gate department still installs the baffle, baffle and inner tube bottom sliding connection, the spout has still been seted up to the inner tube bottom, is equipped with the slider in the spout, and the slider is connected with the baffle, through installing the baffle in the inner tube bottom, can ensure to seal the inner tube when the stirring, does benefit to the unloading when the unloading.

As the further improvement of above-mentioned scheme, fixed subassembly includes the hoop, the hoop is provided with two, two the hoop is followed the vertical direction symmetry and is installed in the intermediate layer, and two still be provided with the spout on the hoop, install a plurality of sliders in the spout, the slider is circumference and distributes in the spout, and motor two work drives the slider and slides, through setting up the hoop, can ensure that the inner tube can be installed inside the urceolus, through setting up the spout on the hoop and installing the slider, can ensure that the inner tube can rotate independent of the urceolus when installing.

As the further improvement of above-mentioned scheme, stirring vane installs at the other end of flexible installation tube in the slope, just stirring vane shape all sets up to the arc, through setting up stirring vane to the arc shape, can laminate with the inner tube inner wall when scraping the clearance with the inner tube inner wall advantageously.

As a further improvement of the scheme, the working directions of the first motor and the second motor are opposite, the output end of the second motor drives the inner cylinder to rotate through the belt, and the second motor can ensure that the second motor drives the inner cylinder to rotate independently of the outer cylinder by reversely setting the working directions of the first motor and the second motor, so that raw materials are fully stirred.

As a further improvement of the scheme, the cleaning assembly comprises a water tank, a water pipe, an annular hollow pipe, a telescopic pipe and a spray head, wherein the water tank is arranged on a mounting bottom plate, the water inlet end of the water tank is connected with the outside, the water outlet end of the water tank is connected with a water pump, one end of the water pipe is connected with the water pump, the other end of the water pipe is communicated with the inside of the annular hollow pipe, the annular hollow pipe is arranged on the outer frame, the telescopic water pipe is circumferentially distributed on a hoop, the telescopic pipe is communicated with the inside of the annular hollow pipe, and the spray head is arranged at the top end of the telescopic pipe; through being linked together annular hollow tube and flexible pipe inner wall, thereby can ensure that hydroenergy all spouts from the shower nozzle and finally flows into the inner tube through annular hollow tube and flexible pipe when stirring, when striking off the clearance, increase water pressure through the water pump to carry out effectual washing to the inner tube inner wall and strike off, thereby guarantee that red mud can not corrode equipment.

As a further improvement of the scheme, sealing strips are arranged at the joint of the water pipe and the water tank, the joint of the water pipe and the annular hollow pipe and the joint of the telescopic pipe and the annular hollow pipe; through the sealing strip at the joint, the equipment can be ensured not to leak water when working, thereby ensuring personal safety of staff.

Compared with the prior art, the invention has the beneficial effects that:

through setting the mixing drum into two-layer structure, urceolus and inner tube for the inner tube can be independent of the urceolus realizes independent rotation, and the motor that the cooperation top cap top set up is first to drive the (mixing) shaft and set up the stirring vane work on the (mixing) shaft, can carry out even effectual stirring to the raw and other materials; through installing flexible installation tube on the (mixing) shaft to install stirring vane at the other end of flexible installation tube, can make stirring vane not only stir raw and other materials, can also be after pouring, through the laminating of extension flexible installation tube, can strike off the concrete that the inner tube inner wall stuck with stirring vane and inner tube inner wall; through setting up the water pump in with the water tank, not only can provide the required water of stirring for stirring when stirring, can also be when striking off the clearance, thereby with stirring vane and inner tube inner wall laminating with flexible installation pipe extension when increasing water pressure, through the cooperation work of stirring vane rivers too, carry out effectual washing to inner tube inner wall; through setting up baffle and unloading auxiliary assembly with the inner tube bottom, not only can seal the inner tube when the stirring, when preventing that the raw materials from leaking, can also be when the unloading through the stirring She Xiangpei that unloading auxiliary assembly and motor drive to close the speed of accelerating the unloading.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an automated production system for red mud foam lightweight concrete provided by the embodiment of the invention;

FIG. 2 is a right side view schematic structure;

FIG. 3 is a schematic diagram of the positional relationship of the inner cylinder and the outer cylinder;

FIG. 4 is a schematic view of the inner barrel bottom assembly;

FIG. 5 is a schematic view in bottom cross-section;

FIG. 6 is a schematic top view of a cross section of a hoop;

FIG. 7 is a schematic cross-sectional view of an inner barrel bottom mounting assembly.

Main symbol description:

the hydraulic lifting device comprises a base 1, a hydraulic lifting rod 11, a mounting bottom plate 12, a top cover 2, a first feeding hopper 21, a feeding pipe 22, an outer cylinder 32, an inner cylinder 31, a first motor 4, a stirring shaft 41, a telescopic mounting pipe 43, stirring blades 42, a second motor 44, a discharging hopper 5, a discharging gate 51, a shortcut pipe 52, a mounting plate 6, an electric telescopic rod 61, a push plate 62, a baffle 63, a hoop 7, a water tank 8, a water pipe 81, an annular hollow pipe 82, a telescopic pipe 83 and a spray head 84.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

Examples:

referring to fig. 1-7, the present invention provides an automatic production system for red mud foam lightweight concrete.

the base 1 is fixed with the outside, a hydraulic lifting rod 11 is also installed on the base 1, and the output end of the hydraulic lifting rod 11 is connected with a mounting bottom plate 12;

the stirring cylinder is arranged on the mounting bottom plate 12 and comprises an inner cylinder 31 and an outer cylinder 32, an interlayer is formed between the inner cylinder 31 and the outer cylinder 32, a discharge hole is formed in the bottom of the outer cylinder 32, a discharging auxiliary assembly is arranged at the discharge hole, and a fixing assembly for mounting the inner cylinder 31 is further arranged in the interlayer 33;

the top cover 2 is buckled on the outer cylinder 32, and a feed hopper 21 and a feed pipe 22 are also arranged on the top cover 2, and the feed hopper 21 and the feed pipe 22 are respectively used for inputting raw materials and foam;

the stirring assembly comprises a first motor 4, a stirring shaft 41, stirring blades 42, telescopic mounting pipes 43 and a second motor 44, wherein the first motor 4 is arranged on the top cover 2, the output end of the first motor 4 is connected with the stirring shaft 41, the stirring shaft 41 is coaxially arranged in the inner cylinder 31, two telescopic mounting pipes 43 are symmetrically arranged on the upper side and the lower side of the stirring shaft 41, the stirring blades 42 are arranged at the other end of the telescopic mounting pipes 43, one side of each stirring blade 42 is in contact with the inner wall of the inner cylinder 31, the second motor 44 is arranged at the bottom of the interlayer, and the output end of the second motor 44 is used for driving the inner cylinder 31 to rotate;

the blanking assembly comprises a blanking hopper 5, a blanking gate 51 and a shortcut pipe 52, wherein the blanking hopper 5 is arranged at the bottom of the outer cylinder 32, the blanking gate 51 is arranged at the bottom of the blanking hopper 5, the shortcut pipe 52 is arranged at the bottom of the blanking gate 51, and the shortcut pipe 52 is connected with the pump;

a cleaning component is also mounted on the mounting base plate 12;

in the above scheme, the bottom of the feed hopper 21 and the feed pipe 22 extend into the inner cylinder 31, and the diameter of the feed pipe 22 is larger than the diameter of the discharge hole of the foaming machine, so that the bottom of the feed hopper 21 and the bottom of the feed pipe 22 extend into the inner cylinder 31, and the raw materials can be ensured not to be wasted and omitted during feeding; by sizing the diameter of the feed tube 22 to be greater than the diameter of the discharge port of the foaming machine, the foaming machine is facilitated to directly inject foam into the inner barrel 31.

As an alternative embodiment of the present invention, the bottom discharge port of the inner cylinder 31 is provided with a semi-open structure, and the discharge port is further provided with a baffle 63, the baffle 63 is slidably connected with the bottom of the inner cylinder 31, the bottom of the inner cylinder 31 is further provided with a sliding groove, a sliding block is arranged in the sliding groove, the sliding block is connected with the baffle 63, and by installing the baffle 63 at the bottom of the inner cylinder 31, the inner cylinder 31 can be ensured to be sealed during stirring, and the blanking is facilitated during blanking.

As an alternative embodiment of the present invention, the fixing assembly includes two hoops 7, the hoops 7 are provided with two hoops 7, the two hoops 7 are symmetrically installed in the interlayer along the vertical direction, the two hoops 7 are further provided with sliding grooves, a plurality of sliding blocks are installed in the sliding grooves, the sliding blocks are circumferentially distributed in the sliding grooves, the second motor 44 operates to drive the sliding blocks to slide, by providing the hoops 7, the inner cylinder 31 can be ensured to be installed in the outer cylinder 32, and by providing the sliding grooves on the hoops 7 and installing the sliding blocks, the inner cylinder 31 can be ensured to rotate independently of the outer cylinder 32 while being installed.

As an alternative embodiment of the present invention, the stirring blade 42 is obliquely installed at the other end of the telescopic installation tube 43, and the stirring blade 42 is arc-shaped, so that the stirring blade 42 is arc-shaped, and can be advantageously attached to the inner wall of the inner cylinder 31 when scraping and cleaning the inner wall of the inner cylinder 31.

As an alternative embodiment of the present invention, the working directions of the first motor 4 and the second motor 44 are opposite, the output end of the second motor 44 drives the inner cylinder 31 to rotate through the belt, and by setting the working directions of the first motor 4 and the second motor 55 in opposite directions, it is ensured that the second motor 44 drives the inner cylinder 31 to rotate independently of the outer cylinder 32, so as to sufficiently stir the raw materials.

As an alternative embodiment of the present invention, the cleaning assembly includes a water tank 8, a water pipe 81, an annular hollow pipe 82, a telescopic pipe 83 and a spray head 84, wherein the water tank 8 is mounted on the mounting base plate 12, the water inlet end of the water tank 8 is connected with the outside, the water outlet end of the water tank 8 is connected with a water pump, one end of the water pipe 81 is connected with the water pump, the other end is communicated with the interior of the annular hollow pipe 82, the annular hollow pipe 82 is mounted on the outer cylinder 3, the telescopic pipe 81 is circumferentially distributed on the hoop 7, the telescopic pipe 83 is communicated with the interior of the annular hollow pipe 82, and the spray head 84 is mounted on the top end of the telescopic pipe 83; through with the annular hollow tube 82 with flexible pipe 83 in communicate, can ensure that hydroenergy all spouts from shower nozzle 84 through annular hollow tube 82 and flexible pipe 83 and finally flows into in the inner tube 31 when stirring, when striking off the clearance, increase water pressure through the water pump to carry out effectual washing to the inner wall of inner tube 31 and strike off, thereby guarantee that red mud can not corrode equipment.

As an alternative embodiment of the invention, sealing strips are arranged at the joint of the water pipe 81 and the water tank 8, the joint of the water pipe 81 and the annular hollow pipe 82 and the joint of the telescopic pipe 83 and the annular hollow pipe 82; through the sealing strip at the joint, the equipment can be ensured not to leak water when working, thereby ensuring personal safety of staff.

Working principle:

pouring the raw material into the inner tube 31 through the feed hopper 21 mounted on the top cover 2; then the first motor 4 arranged on the top cover 2 drives the stirring shaft 41 in the inner barrel 31 to start rotating, so as to drive the stirring blade 42 arranged at the other end of the telescopic mounting pipe 43 on the stirring shaft 41 to start rotating, the raw materials are stirred, when the first motor 4 on the top cover 2 starts working, the water pump synchronously starts working, water flows out of the water tank 8, then flows into the telescopic pipe 83 through the water pipe 81 and the annular hollow pipe 82, and finally is sprayed out of the spray head 84 at the top of the telescopic pipe 83 arranged above the hoop 7; then, the second motor 44 installed at the bottom of the interlayer starts to work, the second motor 44 rotates through the belt inner cylinder 31 and the raw materials contained in the inner cylinder 31 (and the first motor 4 installed on the top cover 2 is opposite to the second motor 44 installed below the interlayer in the working direction); when the two motors work for a period of time, after the raw materials are fully stirred, the raw materials extend into the inner cylinder 31 through the feeding pipe 22 by the discharging pipe of the foaming machine, and the foaming machine is started to pour foam into the inner cylinder 31; then, the two motors continue to start to work, and newly added foam and the stirred raw materials are stirred; after the stirring is completed, the feed inlet pipeline of the concrete pump is buckled with the quick connecting pipe 52; then an electric telescopic rod 61 arranged at the bottom of the inner barrel 31 starts to work, the electric telescopic rod 61 is shortened, a push plate 62 is driven to work, a baffle 63 is driven to work, discharging is carried out, a motor I4 arranged on the top cover 2 is opened, a stirring blade 42 is driven, stirred slurry is pushed, the slurry flows into the discharging hopper 5 from the inner barrel 31, a discharging gate 51 arranged below the discharging hopper 5 is opened, concrete slurry flows into a concrete pump from the discharging hopper 5 along a pipeline, and then in-situ pouring is carried out; after pouring, the electric telescopic rod 61 is extended to drive the push plate 62 to work so as to drive the baffle 63 to work, the inner cylinder 31 is sealed, and then the telescopic mounting tube 43 is extended to attach the stirring blade 42 to the inner wall of the inner cylinder 31; then the two motors and the water pump are turned on, and the water in the water tank is pressurized by the water pump, so that the inner wall of the inner cylinder 31 is cleaned and scraped

The above embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present invention are intended to be within the scope of the present invention as claimed.

Claims

1. The automatic production system device for the red mud foam lightweight concrete is characterized by comprising a base, a top cover, a stirring cylinder, a stirring assembly, a blanking assembly and a cleaning assembly;

and the mounting bottom plate is also provided with a cleaning component.

2. An apparatus for an automatic production system of red mud foam lightweight concrete according to claim 1, wherein the bottom of the feed hopper and the feed pipe are both deep into the inner cylinder, and the diameter of the feed pipe is larger than the diameter of the discharge hole of the foaming machine.

3. The automated production system device for the red mud foam lightweight concrete according to claim 1, wherein the discharge hole at the bottom of the inner cylinder is arranged in a semi-open mode, a baffle is further installed at the discharge hole, the baffle is slidably connected with the bottom of the inner cylinder, a sliding groove is further formed in the bottom of the inner cylinder, a sliding block is arranged in the sliding groove, and the sliding block is connected with the baffle.

4. The automated red mud foam lightweight concrete production system device according to claim 1, wherein the blanking auxiliary assembly comprises a mounting plate, an electric telescopic rod, a push plate and a baffle plate, wherein the mounting plate is mounted at the bottom of the inner cylinder, the electric telescopic rod is mounted on the mounting plate, the output end of the electric telescopic rod is connected with the push plate, and the push plate is mounted at the bottom of the baffle plate at the bottom of the inner cylinder.

5. The automatic production system device for the red mud foam lightweight concrete according to claim 1, wherein the fixing assembly comprises two hoops, the two hoops are symmetrically arranged in the interlayer along the vertical direction, the two hoops are further provided with sliding grooves, a plurality of sliding blocks are arranged in the sliding grooves, the sliding blocks are circumferentially distributed in the sliding grooves, and the two sliding blocks are driven to slide by the two working motors.

6. An automated red mud foam lightweight concrete production system device as set forth in claim 1, wherein the stirring blades are obliquely installed at the other end of the telescopic installation tube, and the stirring blades are all arc-shaped.

7. An automated red mud foam lightweight concrete production system device as set forth in claim 1, wherein four hydraulic lifting rods are provided and are symmetrically arranged at four corners of the base.

8. The automatic production system device for the red mud foam lightweight concrete according to claim 1, wherein the working direction of the motor I is opposite to that of the motor II, and the output end of the motor II drives the inner cylinder to rotate through a belt.

9. The automatic production system device for the red mud foam lightweight concrete according to claim 1, wherein the cleaning assembly comprises a water tank, a water pipe, an annular hollow pipe, a telescopic pipe and a spray head, the water tank is installed on a mounting bottom plate, the water inlet end of the water tank is connected with the outside, the water outlet end of the water tank is connected with a water pump, one end of the water pipe is connected with the water pump, the other end of the water pipe is communicated with the inside of the annular hollow pipe, the annular hollow pipe is installed on the outer frame, the telescopic water pipe is circumferentially distributed on a hoop, the telescopic pipe is communicated with the inside of the annular hollow pipe, and the spray head is installed at the top end of the telescopic pipe.

10. An automatic production system device for red mud foam lightweight concrete according to claim 1, wherein sealing strips are arranged at the joint of the water pipe and the water tank, the joint of the water pipe and the annular hollow pipe and the joint of the telescopic pipe and the annular hollow pipe.