CN114102829B - Group vertical mold multi-pump cluster ecological material injection process - Google Patents

Abstract

The invention discloses a group vertical mold multi-pump cluster ecological material injection process, and relates to the technical field of concrete prefabricated part production and casting. The material injection process comprises the following steps: A. connecting grouting equipment; B. homogenizing the material head; C. switching to a material injection station; D. synchronously and uniformly injecting materials; E. switching to a refining station; F. a new round of material injection circulation; G. and (5) automatic cleaning and purifying. The invention realizes the leap from single-point, manual and intermittent operation to automatic program control operation in the material injection process, can realize the homogenization treatment of the material head and the material tail and the material slurry to be injected before the material injection, can realize the synchronous collaborative material injection of multiple pumps and automatic control material injection in the material injection process, can realize the automatic cleaning of pumping systems such as a material conveying pipe, a pumping machine and the like after the material injection, can realize the purification treatment and recycling of waste water, and solves the technical problems of discontinuous material injection, uneven material injection, frequent material blocking, troublesome cleaning, waste water pollution and the like in the traditional process.

Description

Group vertical mold multi-pump cluster ecological material injection process

Technical Field

The invention belongs to the technical field of concrete prefabricated part production and pouring, and particularly relates to a group vertical mold multi-pump cluster ecological material injection process.

Background

The concrete prefabricated parts represented by the concrete prefabricated wall boards become one of main parts in modern multi-storey or high-rise buildings, and the appearance of the concrete prefabricated wall boards greatly improves the building efficiency of the multi-storey or high-rise buildings. In the industrial production process of concrete prefabricated wallboards, how to realize smooth pouring of groups of vertical mold groups which sequentially run along a production line is always a technical bottleneck in the industry, namely a common material injection system comprises a material receiving hopper, a pump injection machine and a material conveying pipe communicated between the pump injection machine and a material injection port of a group of vertical mold cavities, wherein the conventional material injection process is as follows: the receiving hopper receives materials, the pumping machine pressurizes, and the high-pressure pumping is carried out along the conveying pipe. In the actual production process, the following defects of the traditional material injection process are found: 1. each group of vertical moulds is provided with a plurality of forming mould cavities, and the traditional material injection is to sequentially pour slurry into each forming mould cavity by using a single pump, and as each forming mould cavity is asynchronous in pouring, the stress of a partition plate between every two adjacent mould cavities is uneven, and once the partition plate is deformed, the quality and the appearance of the formed wallboard are directly affected; 2. because of the limitation of the volume of the receiving hopper, one material injection cycle cannot meet the material injection requirements of a plurality of mold cavities of the same group vertical mold, and multiple material injection cycles are needed to meet the material injection requirements, so that a material head and a material tail exist in each material injection cycle, and the viscosity of the material head and the material tail in pumped concrete slurry is far different from that of intermediate slurry, so that the molding quality of a wallboard is greatly affected when the material head and the material tail are injected into a molding mold cavity, and more serious, the material head and the material tail are very easy to block a material conveying pipe to affect the smooth progress of the material injection; 3. once the conveying pipe is blocked, a large amount of clear water is needed to wash the conveying pipe in time, the length of the conveying pipe is generally more than ten meters, the weight of the conveying pipe is about 30-40 Kg, two persons and three persons are needed to move, time and labor are wasted, the operation is troublesome, and the discharge of waste water for washing slurry in large amount is not as much as that of a working site; 4. in addition, before the rest in the middle of the day or the work in the late, in order to prevent the concrete from solidifying and blocking the conveying pipe, a large amount of clear water is needed to wash the conveying pipe in time, and water, material, time and labor are wasted. Therefore, the sequential pumping process of the prior single material injection machine is urgently needed to be improved, and the group-standing multi-pump cluster ecological material injection process which can realize synchronous, uniform and continuous material injection of multiple pumps, has no blockage, less cleaning and no pollution is designed.

Disclosure of Invention

The invention aims to provide a group vertical mold multi-pump cluster ecological material injection process aiming at the defects of the prior art. The invention realizes the leap from single-point, manual and intermittent operation to automatic program control operation in the material injection process, can realize the homogenization treatment of the material head and the material tail and the material slurry to be injected before the material injection, can realize the synchronous collaborative material injection of multiple pumps and automatic control material injection in the material injection process, can realize the automatic cleaning of pumping systems such as a conveying pipe, a pumping machine and the like after the material injection, can realize the purification treatment and the recycling of waste water, and solves the technical problems of discontinuous material injection, uneven material injection, frequent material blocking, troublesome cleaning, waste water pollution and the like in the traditional process, thereby realizing the smooth casting, the efficient casting and the high-quality casting of the group vertical mold groups which sequentially operate in the production line.

The aim of the invention can be achieved by the following technical measures:

the invention relates to a group vertical mold multi-pump cluster ecological material injection process which comprises the following steps:

A. and (3) connecting grouting equipment: arranging a plurality of identical pump injection machines below the centralized material distribution groove side by side, enabling the inlet end of each pump injection machine to be communicated with a corresponding blanking port in the centralized material distribution groove, and then respectively displacing a conveying pipe with an input end connected with the outlet end of the corresponding pump injection machine and an output end provided with a quick connector to a material distribution station right above the corresponding blanking port in the centralized material distribution groove;

B. homogenizing the stub bar: opening a discharge valve of an external mixer, and uniformly distributing concrete slurry into a centralized distributing groove through a plurality of discharging ports arranged side by side at intervals to a pump injection machine corresponding to the lower part; synchronously starting all the pump injectors through a centralized control system and simultaneously pressurizing pump materials, conveying the material heads of the concrete slurry back to corresponding material homogenizing stations along respective conveying pipes, and reinjecting the material heads of the concrete slurry back into a centralized material distributing groove, mixing the material heads of the concrete slurry with the uniform slurry which falls into the middle section of the centralized material distributing groove, pressurizing, pumping again, and forming homogenized slurry by the centralized material distributing groove and the concrete slurry in the conveying pipe after round-trip circulation for several times; at the moment, closing a discharge valve of the external mixer and suspending a pumping switch of the pumping machine;

C. switching to a material injection station: starting a horizontal transmission mechanism in the station switching device, driving the output ends of all conveying pipes to horizontally move from the material homogenizing stations to the positions right above the material injecting stations at the material injecting openings of the corresponding molding cavities in the group vertical molds in the pouring area, and then vertically falling under the driving action of the corresponding cylinders in the station switching device until the quick connection joints are tightly buckled with the material injecting openings of the corresponding material injecting stations;

D. synchronous and uniform material injection: restarting a pumping switch of each pumping machine, pressurizing the homogenized concrete slurry, and pumping the homogenized concrete slurry into a corresponding molding die cavity along respective conveying pipes; when the corresponding molding die cavity is filled with the concrete slurry, the concrete slurry is perceived by an inductor which is arranged at the upper opening of the molding die cavity and is arranged in a riser at the opposite end of the material filling opening, the inductor sends out a filling signal to a centralized control system, and the centralized control system sends out an operation stopping instruction to a pumping switch of a corresponding pumping machine;

E. switching to a refining station: after the material injection is completed, controlling the cylinder to return to drive the output end of the material conveying pipe to rise; then a horizontal transmission mechanism is started to drive the output end of the conveying pipe to horizontally move to a refining station;

F. a new cycle of material injection: repeating the step B, C, D, E to complete the new cycle of concrete slurry injection;

G. automatic cleaning and purifying: before the worker finishes the material injection and needs to go off duty, closing a discharge valve of the external mixer; the output ends of all the conveying pipes are controlled to move to the corresponding sewage disposal stations simultaneously by a centralized control system, and the inlets of the sewage disposal stations are water collecting tanks which are arranged between the pump injection machine and the group vertical mould and the bottoms of which are communicated with the wastewater purifying tank; the high-pressure flushing valve above the centralized material dividing groove is opened through the centralized control system, high-pressure clean water sequentially impacts residual slurry along the centralized material dividing groove, the pump injection machine and the material conveying pipe, and the wastewater containing the residual slurry is discharged to the water collecting groove, then flows into the wastewater purifying tank for precipitation and filtration, and is recycled after the water quality is changed into clear.

The blanking port, the pump injection machine, the material conveying pipe, the horizontal transmission mechanism, the air cylinder, the molding die cavity, the material injection port, the riser, the material refining station, the material injection station and the pollution discharge station are equal in number (a set of independent pump injection units can be assembled by taking a single component, and thus the multi-pump cluster ecological material injection system formed by a centralized material distribution groove and a plurality of sets of independent pump injection units arranged side by side is uniformly controlled by a centralized control system to synchronously, uniformly and continuously inject materials to all molding die cavities in the same group of vertical die at the same time under the same pressure, so that deformation of a partition plate can be effectively avoided, and the accuracy and stability of the molding die cavities are ensured.

The design principle of the invention is as follows:

the invention realizes the leap from single point, manual and intermittent operation to automatic program control operation in the material injection process, namely, the homogenization treatment of the material head and the material tail and the slurry to be injected can be realized before the material injection, the synchronous and coordinated material injection of multiple pumps and automatic control of the material injection can be realized in the material injection process, the automatic cleaning of pumping systems such as a material conveying pipe, a pumping machine and the like can be realized after the material injection, and the wastewater can be purified and recycled. More specifically, the invention uniformly controls the multi-pump cluster ecological material injection system consisting of a plurality of identical pump injection machines, a plurality of matched material conveying pipes, a centralized material distribution groove and a station switching device through the centralized control system to synchronously, uniformly and continuously inject materials, so that the pump injection efficiency is greatly improved, more importantly, each forming die cavity in the same group vertical die can synchronously, uniformly and continuously inject materials under the same pressure, the stress of a partition plate between every two adjacent die cavities is uniform, the deformation of the partition plate can be effectively avoided, the accuracy and the stability of the forming die cavities are ensured, further, the prefabricated wallboard with high quality and attractive appearance is formed, the technical bottleneck problems of discontinuous material injection, nonuniform material injection and the like in the traditional material injection process are solved, and the group vertical die groups which sequentially operate in the production line are ensured to realize high-efficiency pouring and high-quality pouring. For each independent pumping unit, three stations of a refining station, a material injection station and a sewage disposal station are designed to be in butt joint with a quick joint at the output end of the conveying pipe, and when the quick joint at the output end of the conveying pipe moves to the refining station, the homogenization treatment of the material head and the material tail and the slurry to be injected can be realized before material injection; after the quick connector at the output end of the conveying pipe moves to the material injection station and is buckled to the material injection port in a butt joint way, multi-pump synchronous collaborative material injection and automatic control material injection can be realized in the material injection process; after the quick connector at the output end of the conveying pipe moves to the sewage disposal station, the automatic cleaning of the conveying pipe, the pump injection machine and other pump injection systems can be realized after the material injection or during the work collection, and the wastewater is purified by utilizing the precipitation and the filtration of the wastewater purification tank and recycled; therefore, the invention can realize no blockage, less cleaning and no pollution, solves the technical bottleneck problems of frequent blockage, troublesome cleaning, waste water pollution and the like in the traditional material injection process, and ensures that the group of the vertical mold groups running in sequence in the production line can realize smooth pouring and efficient pouring.

The beneficial technical effects of the invention are as follows:

the invention realizes the leap from single-point, manual and intermittent operation to automatic program control operation in the material injection process, can realize the homogenization treatment of the material head and the material tail and the material slurry to be injected before the material injection, can realize the synchronous collaborative material injection of multiple pumps and automatic control material injection in the material injection process, can realize the automatic cleaning of pumping systems such as a conveying pipe, a pumping machine and the like after the material injection, can realize the purification treatment and the recycling of waste water, and solves the technical problems of discontinuous material injection, uneven material injection, frequent material blocking, troublesome cleaning, waste water pollution and the like in the traditional process, thereby realizing the smooth casting, the efficient casting and the high-quality casting of the group vertical mold groups which sequentially operate in the production line.

Drawings

FIG. 1 is a schematic process layout of a material injection system of the present invention comprising various devices.

Fig. 2 is a cross-sectional view of M-M in fig. 1.

Fig. 3 is an N-N cross-sectional view of fig. 1.

Fig. 4 is a P-P cross-sectional view of fig. 1.

Part number description in the figures: 1. 1-1 parts of centralized material distribution groove, 1-1 parts of blanking port, 2 parts of pump injection machine, 3 parts of material conveying pipe, 4 parts of quick joint, 5 parts of station switching device, 5-1 parts of horizontal transmission mechanism, 5-2 parts of cylinder, 6 parts of grouped vertical mould, 6-1 parts of forming mould cavity, 6-2 parts of a material injection port, 6-3 parts of a riser, 7 parts of an inductor, 8 parts of a centralized control system, 9 parts of a water collecting tank, 10 parts of a wastewater purifying tank, 11 parts of an external mixer, A ' parts of a material homogenizing station, B ' parts of a material injection station, C ' parts of a sewage draining station.

Detailed Description

The invention will be further described with reference to the accompanying drawings:

as shown in fig. 1 to 4, the group vertical mold multi-pump cluster ecological material injection process of the invention comprises the following steps:

A. and (3) connecting grouting equipment: arranging a plurality of identical pumping machines 2 side by side below a centralized material distributing groove 1, enabling the inlet end of each pumping machine to be communicated with a corresponding blanking port 1-1 in the centralized material distributing groove, connecting the input end with the outlet end of the corresponding pumping machine 2, and respectively displacing a material conveying pipe 3 with a quick connector 4 at the output end to a material homogenizing station A' right above the corresponding blanking port 1-1 in the centralized material distributing groove;

B. homogenizing the stub bar: opening a discharge valve of an external mixer 11, enabling concrete slurry to fall into a centralized material distribution groove 1, and uniformly distributing the concrete slurry into a pump injection machine 2 corresponding to the lower part through a plurality of material discharging ports 1-1 arranged side by side at intervals; synchronously starting all the pump injectors 2 through the centralized control system 8 and simultaneously pressurizing pump materials, conveying the material heads of the concrete slurry back to the corresponding material homogenizing stations A' along the respective conveying pipes 3, and reinjecting the material heads of the concrete slurry back into the centralized material distributing groove 1, mixing the material heads of the concrete slurry with the uniform slurry which falls into the middle section of the centralized material distributing groove 1 subsequently, pumping the mixture again after pressurizing, and forming homogenized slurry by the centralized material distributing groove 1 and the concrete slurry in the conveying pipes 3 after round-trip circulation for several times; at this time, the discharge valve of the external mixer 11 is closed, and the pumping switch of the pumping machine 2 is suspended;

C. switching to a material injection station: starting a horizontal transmission mechanism 5-1 in the station switching device 5, driving the output ends of all conveying pipes 3 to horizontally move from a material homogenizing station A ' to a position right above a material injecting station B ' at the position of a material injecting port 6-2 of a corresponding molding die cavity 6-1 in a group vertical die 6 in a pouring area, and then vertically falling under the driving action of a corresponding cylinder 5-2 in the station switching device 5 until a quick connector 4 and the material injecting port 6-2 of the corresponding material injecting station B ' are tightly buckled together;

D. synchronous and uniform material injection: restarting a pumping switch of each pumping machine 2, pressurizing the homogenized concrete slurry, and pumping the homogenized concrete slurry into a corresponding forming die cavity 6-1 along a respective conveying pipe 3; when the corresponding molding die cavity 6-1 is filled with concrete slurry, the concrete slurry is sensed by an inductor 7 arranged at the upper opening of the molding die cavity 6-1 and positioned in a riser 6-3 at the opposite end of the material filling opening, the inductor 7 sends out a filling signal to the centralized control system 8, and the centralized control system 8 sends out a stop operation instruction to a pumping switch of the corresponding pumping machine 2;

E. switching to a refining station: after the material injection is completed, the cylinder 5-2 is controlled to return to drive the output end of the material conveying pipe 3 to rise; then a horizontal transmission mechanism 5-1 is started to drive the output end of the conveying pipe 3 to horizontally move to a refining station A';

F. a new cycle of material injection: repeating the step B, C, D, E to complete the new cycle of concrete slurry injection;

G. automatic cleaning and purifying: before the worker finishes the material injection and needs to go off duty, closing a discharge valve of the external mixer 11; the output ends of all the conveying pipes 3 are controlled to move to the corresponding blowdown stations C 'simultaneously by the centralized control system 8, and the inlets of the blowdown stations C' are water collecting tanks 9 which are arranged between the pump injection machine 2 and the group vertical mould 6 and are communicated with the wastewater purifying tank 10 at the bottom; the high-pressure flushing valve above the centralized material dividing groove 1 is opened through the centralized control system 8, high-pressure clean water sequentially impacts residual slurry along the centralized material dividing groove 1, the pumping machine 2 and the conveying pipe 3, and the wastewater containing the residual slurry is discharged to the water collecting groove 9, then flows into the wastewater purifying tank 10 for precipitation and filtration, and the water quality is changed into clean water for cyclic and reciprocating utilization.

The blanking port 1-1, the pumping and injecting machine 2, the conveying pipe 3, the horizontal transmission mechanism 5-1, the air cylinder 5-2, the molding die cavity 6-1, the material injecting port 6-2, the riser 6-3, the material homogenizing station A ', the material injecting station B ' and the pollution discharging station C ' are equal in number (a set of independent pumping and injecting units can be assembled by taking a single component, and thus the centralized control system 8 is used for uniformly controlling the multi-pump cluster ecological material injecting system consisting of a centralized material distributing groove 1 and a plurality of sets of independent pumping and injecting units arranged side by side to synchronously and uniformly inject materials at the same pressure to each molding die cavity in the same group vertical die, thereby effectively avoiding deformation of a partition plate and ensuring the accuracy and stability of the molding die cavity.

Claims (2)

1. A group vertical mould multi-pump cluster ecological material injection process is characterized in that: the material injection process comprises the following steps:

A. and (3) connecting grouting equipment: arranging a plurality of identical pump injection machines (2) side by side below a centralized material distributing groove (1), enabling the inlet end of each pump injection machine to be communicated with a corresponding blanking port (1-1) in the centralized material distributing groove, and then respectively displacing a material conveying pipe (3) with an input end connected with the outlet end of the corresponding pump injection machine (2) and an output end provided with a quick connector (4) to a material homogenizing station (A') right above the corresponding blanking port (1-1) in the centralized material distributing groove;

B. homogenizing the stub bar: opening a discharge valve of an external mixer (11), enabling concrete slurry to fall into a centralized material distribution groove (1), and uniformly distributing the concrete slurry into a pump injection machine (2) corresponding to the lower part through a plurality of material discharging ports (1-1) which are arranged side by side at intervals; all the pump injectors (2) are synchronously started by the centralized control system (8) to simultaneously pressurize the pump materials, the material heads of the concrete slurry are conveyed back to the corresponding material homogenizing stations (A') along the respective conveying pipes (3) and are re-infused into the centralized material distributing groove (1), the material heads of the concrete slurry are mixed with the uniform slurry which falls into the middle section of the centralized material distributing groove (1) subsequently, the pump materials are re-pumped after being pressurized, and the homogenized slurry is formed by the centralized material distributing groove (1) and the concrete slurry in the conveying pipes (3) after the round-trip circulation for several times; at the moment, a discharge valve of the external mixer (11) is closed, and a pumping switch of the pumping machine (2) is paused;

C. switching to a material injection station: starting a horizontal transmission mechanism (5-1) in the station switching device (5), driving the output ends of all conveying pipes (3) to horizontally move from a material refining station (A ') to a position right above a material injection station (B ') at which a material injection port (6-2) of a corresponding molding die cavity (6-1) is positioned in a group vertical die (6) in a pouring area, and then vertically falling under the driving action of a corresponding cylinder (5-2) in the station switching device (5) until a quick connector (4) and the material injection port (6-2) of the corresponding material injection station (B ') are tightly buckled together;

D. synchronous and uniform material injection: restarting a pumping switch of each pumping machine (2), pressurizing the homogenized concrete slurry, and pumping the homogenized concrete slurry into a corresponding molding die cavity (6-1) along a respective conveying pipe (3); when the corresponding molding die cavity (6-1) is filled with concrete slurry, the concrete slurry is perceived by an inductor (7) arranged at the upper opening of the molding die cavity (6-1) and positioned in a riser (6-3) at the opposite end of the material filling opening, the inductor (7) sends out a filling signal to the centralized control system (8), and the centralized control system (8) sends out an operation stopping instruction to a pumping switch of the corresponding pumping machine (2);

E. switching to a refining station: after the material injection is completed, the cylinder (5-2) is controlled to return to drive the output end of the material conveying pipe (3) to rise; then a horizontal transmission mechanism (5-1) is started to drive the output end of the conveying pipe (3) to horizontally move to a refining station (A');

F. a new cycle of material injection: repeating the step B, C, D, E to complete the new cycle of concrete slurry injection;

G. automatic cleaning and purifying: before the work worker finishes feeding and needs to go off the work, closing a discharge valve of an external mixer (11); the output ends of all the conveying pipes (3) are controlled to move to the corresponding sewage disposal stations (C ') simultaneously through the centralized control system (8), and the inlets of the sewage disposal stations (C') are water collecting tanks (9) which are arranged between the pumping machine (2) and the group of vertical molds (6) and the bottoms of which are communicated with the wastewater purifying tanks (10); the high-pressure flushing valve above the centralized material distributing groove (1) is opened through the centralized control system (8), high-pressure clean water sequentially impacts residual slurry along the centralized material distributing groove (1), the pumping machine (2) and the conveying pipe (3), and discharges wastewater containing residual slurry to the water collecting groove (9), so that the wastewater flows into the wastewater purifying tank (10) for precipitation and filtration, and the wastewater is recycled after being cleaned.

2. The group-standing multi-pump cluster ecological material injection process according to claim 1, wherein the process is characterized in that: the blanking port (1-1), the pumping machine (2), the conveying pipe (3), the horizontal transmission mechanism (5-1), the air cylinder (5-2), the molding die cavity (6-1), the material injection port (6-2), the riser (6-3), the material homogenizing station (A '), the material injecting station (B ') and the pollution discharging station (C ') are equal in number.

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