CN114434625A - Intelligent batching system of mortar shaping preparation - Google Patents

Abstract

The invention provides an intelligent batching system for mortar molding preparation, which comprises a main stirring bin, a main solid material bin, a main liquid material bin, a weighing hopper, a main stirring paddle, a feeding channel, a secondary stirring bin, an auxiliary liquid material bin, an atomizing spray head, a water storage bin, an auxiliary stirring paddle, a discharge channel static pressure molding device and an industrial personal computer; the device also comprises an electromagnetic valve, a flowmeter, a viscometer and a flow regulating valve; the industrial personal computer is electrically connected with the electromagnetic valve, the flowmeter, the main stirring paddle, the auxiliary stirring paddle, the viscometer, the flow regulating valve and the static pressure forming device. The intelligent batching system disclosed by the invention has the advantages that the viscosity of the mortar is monitored by controlling the viscometer through the industrial personal computer, the addition amount and the stirring speed of the materials are judged in real time, the proportion of the materials is regulated and controlled, and the quality of the mortar and the required viscosity are ensured.

Description

Intelligent batching system of mortar shaping preparation

Technical Field

The invention discloses an intelligent batching system for mortar molding preparation, and belongs to the technical field of mortar batching.

Background

The mortar material has the characteristics of good fluidity, self-leveling capability, low shrinkage rate, strong compressive strength and the like, and is widely applied to indoor ground engineering of public buildings such as houses, supermarkets, hospitals and the like. At present, mortar materials are generally divided into organic materials and inorganic materials, and the preparation process is to mix and stir the materials according to a certain proportion, especially the adding proportion of industrial water and anti-crack fibers. However, in the preparation process of the mortar, the existing equipment cannot accurately control the proportion of materials, so that the preparation efficiency is low or the mortar density does not meet the production requirement, and therefore, the invention relates to an intelligent batching system to improve the proportion and the preparation efficiency of mortar materials.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an intelligent batching system for mortar molding preparation, so as to solve the problems in the background technology.

In order to achieve the first purpose, the invention provides an intelligent batching system for mortar molding preparation.

An intelligent batching system for mortar molding preparation comprises a main stirring bin, a plurality of main solid material bins and main liquid material bins, weighing hoppers, main stirring paddles, secondary stirring bins, a plurality of auxiliary liquid material bins, a water storage bin, auxiliary stirring paddles, a static pressure molding device and an industrial personal computer, wherein the main solid material bins and the main liquid material bins are connected with the main stirring bin;

electromagnetic valves are arranged on the main solid material bin, the weighing hopper, the main liquid material bin, the auxiliary liquid material bin and the water storage bin;

flow meters are arranged on the main liquid bin and the auxiliary liquid bin;

viscometers are arranged in the main stirring bin and the secondary stirring bin;

flow regulating valves are arranged on the feeding channel and the discharging channel;

the industrial personal computer is electrically connected with the electromagnetic valve, the flowmeter, the main stirring paddle, the auxiliary stirring paddle, the viscometer, the flow regulating valve and the static pressure forming device.

Preferably, the atomizing nozzles are uniformly distributed in the main stirring bin and the secondary stirring bin.

Preferably, main solid feed bin, the hopper of weighing, main liquid feed bin, supplementary liquid feed bin all are provided with a plurality ofly, and main solid feed bin is the same with the quantity of the hopper of weighing.

Preferably, the number of the main solid material bins is set to be M, and M is 1-10.

Preferably, the number of the main liquid bins is set to be N, and N is 1-5.

Preferably, the number of the auxiliary material liquid bins is set to be 1-10.

Preferably, the method comprises the following steps:

s1, numbering a main solid material bin, a main liquid material bin, a weighing hopper and an auxiliary material liquid material bin, and storing the storage amount and the physical and chemical property information of various materials under corresponding numbers in an industrial personal computer;

s2, numbering the electromagnetic valve and the flowmeter;

s3, presetting the mortar consumption, the material proportion and the viscosity requirement, calculating the corresponding consumption and adding time of the required materials, checking whether the storage quantity and the quality of each material reach the standard, and checking whether each component can work normally;

s4, the industrial personal computer controls an electromagnetic valve corresponding to each material to be opened, each material enters the main solid material bin, the addition amount of the solid materials is controlled through the weighing hopper, the addition amount of the liquid materials is controlled through the flow meter, the water storage bin sprays industrial water into the main stirring bin through the atomizing nozzle, the main stirring paddle is started to stir the materials, and the electromagnetic valve is controlled to be closed by the industrial personal computer after the addition amount of each material reaches a preset value;

s5, monitoring the viscosity of the material in real time by a viscometer in the main stirring bin, adjusting the stirring speed of a main stirring paddle, and controlling the spraying amount of the industrial water in the water storage bin until the viscosity of the material monitored by the viscometer in the main stirring bin reaches a preset value;

s6, conveying the materials in the main stirring bin to a secondary stirring bin through a feeding channel, adding auxiliary materials into the secondary stirring bin through an auxiliary material liquid bin, spraying industrial water into the secondary stirring bin through an atomizing nozzle, and starting an auxiliary stirring paddle to stir the materials;

s7, monitoring the viscosity of the mortar in real time by a viscometer in the secondary stirring bin, adjusting the stirring speed of an auxiliary stirring paddle, and controlling the spraying amount of the industrial water in the water storage bin until the viscosity of the mortar monitored by the viscometer in the secondary stirring bin reaches a preset value;

and S8, conveying the prepared mortar to a static pressure forming device through a discharge channel, and performing static pressure forming for later use.

The invention has the beneficial effects that:

(1) the invention relates to an intelligent batching system for mortar molding preparation, which monitors the viscosity of mortar through an industrial personal computer control viscometer, judges the addition amount and the stirring speed of materials in real time, regulates and controls the proportion of the materials and ensures the quality of the mortar and the required viscosity.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of an intelligent batching system according to the present invention;

FIG. 2 is a schematic diagram of the connection relationship of an industrial personal computer of the intelligent batching system.

In the figure: 1 main stirring storehouse, 2 main solid feed bins, 3 main liquid feed bins, 4 hoppers of weighing, 5 water storage bins, 6 main stirring rakes, 7 feeding channel, 8 secondary stirring storehouses, 9 auxiliary liquid feed bins, 10 auxiliary stirring rakes, 11 discharge channels, 12 static pressure forming devices, 13 industrial computers, 14 electromagnetic valves, 15 flowmeters, 16 viscometers, 17 flow control valves.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example 1

As shown in fig. 1 and fig. 2, an intelligent batching system for mortar molding preparation, including main stirring storehouse 1, a plurality of main solid feed bin 2 and main liquid feed bin 3 that link to each other with main stirring storehouse 1, the hopper 4 of weighing that links to each other with main solid feed bin 2, main stirring rake 6 of setting in main stirring storehouse 1, the secondary stirring storehouse 8 that is linked together with main stirring storehouse 1 through pay-off passageway 7, a plurality of auxiliary material liquid feed bins 9 that link to each other with secondary stirring storehouse 8, water storage storehouse 5 that is linked together respectively with main stirring storehouse 1 and secondary stirring storehouse 8 through atomizer, the auxiliary stirring rake 10 of setting in secondary stirring storehouse 8, static pressure forming device 12 that links to each other with secondary stirring storehouse 8 through discharging channel 11, industrial computer 13.

A plurality of main solid material bins 2, weighing hoppers 4, a main liquid material bin 3 and auxiliary liquid material bins 9 are arranged, the number of the main solid material bins 2 is the same as that of the weighing hoppers 4, the number of the main solid material bins 2 is set to be M, M is 1-10, and in the embodiment, the main solid material bins 2 can store solid materials such as cement powder, fine sand, heavy calcium powder, anti-cracking fibers and the like; the number of the main liquid bins 3 is set to be N, wherein N is 1-5, and the main liquid bins 3 can store liquid high-efficiency water reducing agents; the number of the auxiliary material liquid bins 9 is set to be O, the O is 1-10, and the auxiliary material liquid bins 9 are mainly used for storing auxiliary additives such as defoaming agents.

Main solid feed bin 2, weigh hopper 4, main liquid feed bin 3, all dispose solenoid valve 14 on auxiliary material liquid feed bin 9 and the water storage 5, solenoid valve 14 chooses for use current market product can, industrial computer 13 is to main solid feed bin 2, weigh hopper 4, main liquid feed bin 3, auxiliary material liquid feed bin 9 and water storage 5 all set for the serial number, the information to its serial number and the material of depositing is saved in industrial computer 13's database simultaneously, every main solid feed bin 2, weigh hopper 4, main liquid feed bin 3, correspond the solenoid valve 14 of preparing on auxiliary material liquid feed bin 9 and the water storage 5 and also be furnished with the serial number equally, make things convenient for industrial computer 13 to control it.

The main liquid bin 3 and the auxiliary material liquid bin 9 are also provided with flow meters 15 for controlling the addition amount of liquid materials; viscometers 16 are arranged in the main stirring bin 1 and the secondary stirring bin 8 and used for monitoring the viscosity of materials in real time and judging whether the mortar meets the preparation requirement, and atomizing nozzles are uniformly distributed in the main stirring bin 1 and the secondary stirring bin 8 and used for uniformly spraying industrial water into the main stirring bin 1 and the secondary stirring bin 8 to dilute and uniformly adjust the viscosity of the materials; flow regulating valves 17 are arranged on the feeding channel 7 and the discharging channel 11, and when the materials in the main stirring bin 1 and the secondary stirring bin 8 are blended to meet the preset requirements of the industrial personal computer 13, the corresponding flow regulating valves 17 are opened to send the mixed materials into the next device; the industrial personal computer 13 is electrically connected with the electromagnetic valve 14, the flow meter 15, the main stirring paddle 6, the auxiliary stirring paddle 10, the viscometer 16, the flow regulating valve 17 and the static pressure forming device 12, and the instruments can be all current commercial products.

Example 2

The intelligent batching system for mortar molding preparation comprises the following operation steps:

s1, numbering a main solid material bin 2, a main liquid material bin 3, a weighing hopper 4 and an auxiliary material liquid material bin 9, and storing the storage capacity and the physical and chemical property information of various materials under corresponding numbers in an industrial personal computer 13;

s2, numbering the electromagnetic valve 14 and the flowmeter 15;

s3, presetting the mortar consumption, the material proportion and the viscosity requirement, calculating the corresponding consumption and adding time of the required materials, checking whether the storage quantity and the quality of each material reach the standard, and checking whether each component can work normally;

s4, the industrial personal computer 13 controls the electromagnetic valves 14 corresponding to the materials to be opened, the materials enter the main solid material bin 2, the addition amount of the solid materials is controlled through the weighing hopper 4, the addition amount of the liquid materials is controlled through the flow meter 15, the water storage bin 5 sprays industrial water into the main stirring bin 1 through the atomizing nozzle, the main stirring paddle 6 is started to stir the materials, and the industrial personal computer 13 controls the electromagnetic valves 14 to be closed after the addition amount of the materials reaches a preset value;

s5, monitoring the viscosity of the material in real time by a viscometer 16 in the main stirring bin 1, adjusting the stirring speed of a main stirring paddle 6, and controlling the spraying amount of the industrial water in the water storage bin 5 until the viscosity of the material monitored by the viscometer 16 in the main stirring bin 1 reaches a preset value;

s6, conveying the materials in the main stirring bin 1 to a secondary stirring bin 8 through a feeding channel 7, adding auxiliary materials into the secondary stirring bin 8 through an auxiliary material liquid bin 9, spraying industrial water into the secondary stirring bin 8 through an atomizing nozzle, and starting an auxiliary stirring paddle 10 to stir the materials;

s7, monitoring the viscosity of the mortar in real time by a viscometer 16 in the secondary stirring bin 8, adjusting the stirring speed of the auxiliary stirring paddle 10, and controlling the spraying amount of the industrial water in the water storage bin 5 until the viscosity of the mortar monitored by the viscometer 16 in the secondary stirring bin 8 reaches a preset value;

and S8, conveying the prepared mortar to a static pressure forming device 12 through a discharge channel 11, and performing static pressure forming for later use.

The performance of the mortar is measured according to the building industry standard, and the consistency, the layering degree and the soaking tensile bonding strength of the mortar prepared by the intelligent batching system prepared by molding the mortar can meet the performance requirements of producing the required mortar.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides an intelligent feed proportioning system of mortar shaping preparation which characterized in that:

the device comprises a main stirring bin (1), a plurality of main solid material bins (2) and main liquid material bins (3) which are connected with the main stirring bin (1), a weighing hopper (4) which is connected with the main solid material bins (2), a main stirring paddle (6) which is arranged in the main stirring bin (1), a secondary stirring bin (8) which is communicated with the main stirring bin (1) through a feeding channel (7), a plurality of auxiliary liquid material bins (9) which are connected with the secondary stirring bin (8), a water storage bin (5) which is communicated with the main stirring bin (1) and the secondary stirring bin (8) through an atomizing nozzle, an auxiliary stirring paddle (10) which is arranged in the secondary stirring bin (8), a static pressure forming device (12) which is connected with the secondary stirring bin (8) through a discharging channel (11), and an industrial personal computer (13);

electromagnetic valves (14) are arranged on the main solid material bin (2), the weighing hopper (4), the main liquid material bin (3), the auxiliary liquid material bin (9) and the water storage bin (5);

flow meters (15) are arranged on the main liquid bin (3) and the auxiliary liquid bin (9);

viscometers (16) are arranged in the main stirring bin (1) and the secondary stirring bin (8);

flow regulating valves (17) are arranged on the feeding channel (7) and the discharging channel (11);

the industrial personal computer (13) is electrically connected with the electromagnetic valve (14), the flowmeter (15), the main stirring paddle (6), the auxiliary stirring paddle (10), the viscometer (16), the flow regulating valve (17) and the static pressure forming device (12).

2. The intelligent batching system for mortar molding preparation according to claim 1, characterized in that: the atomizing nozzles are uniformly distributed in the main stirring bin (1) and the secondary stirring bin (8).

3. The intelligent batching system for mortar forming preparation according to claim 2, characterized in that: the main solid material bin (2), the weighing hopper (4), the main liquid material bin (3) and the auxiliary liquid material bin (9) are all provided with a plurality of parts, and the main solid material bin (2) is the same as the weighing hopper (4) in quantity.

4. The intelligent batching system for mortar forming preparation according to claim 3, wherein: the number of the main solid material bins (2) is set to be M, and M is 1-10.

5. The intelligent batching system for mortar forming preparation according to claim 4, wherein: the number of the main liquid bins (3) is set to be N, and N is 1-5.

6. The intelligent mortar molding preparation batching system according to claim 5, wherein: the number of the auxiliary material liquid bins (9) is set to be O, and O is 1-10.

7. The intelligent mortar molding preparation batching system according to any one of claims 2-6, wherein: the method comprises the following steps:

s1, numbering a main solid material bin (2), a main liquid material bin (3), a weighing hopper (4) and an auxiliary liquid material bin (9), and storing the storage amount and the physical and chemical property information of various materials under corresponding numbers in an industrial personal computer (13);

s2, numbering the electromagnetic valve (14) and the flowmeter (15);

s3, presetting the mortar consumption, the material proportion and the viscosity requirement, calculating the corresponding consumption and adding time of the required materials, checking whether the storage quantity and the quality of each material reach the standard, and checking whether each component can work normally;

s4, an industrial personal computer (13) controls an electromagnetic valve (14) corresponding to each material to be opened, each material enters a main solid material bin (2), wherein the addition amount of the solid material is controlled through a weighing hopper (4), the addition amount of the liquid material is controlled through a flowmeter (15), a water storage bin (5) sprays industrial water into a main stirring bin (1) through an atomizing nozzle, a main stirring paddle (6) is started to stir the material, and the industrial personal computer (13) controls the electromagnetic valve (14) to be closed after the addition amount of each material reaches a preset value;

s5, monitoring the viscosity of the material in real time by a viscometer (16) in the main stirring bin (1), adjusting the stirring speed of a main stirring paddle (6), and controlling the spraying amount of the industrial water in the water storage bin (5) until the viscosity of the material monitored by the viscometer (16) in the main stirring bin (1) reaches a preset value;

s6, conveying the materials in the main stirring bin (1) to a secondary stirring bin (8) through a feeding channel (7), adding auxiliary materials into the secondary stirring bin (8) through an auxiliary material liquid bin (9), spraying industrial water into the secondary stirring bin (8) through an atomizing nozzle, and simultaneously starting an auxiliary stirring paddle (10) to stir the materials;

s7, monitoring the viscosity of the mortar in real time by a viscometer (16) in the secondary stirring bin (8), adjusting the stirring speed of the auxiliary stirring paddle (10), and controlling the spraying amount of the industrial water in the water storage bin (5) until the viscosity of the mortar monitored by the viscometer (16) in the secondary stirring bin (8) reaches a preset value;

and S8, conveying the prepared mortar to a static pressure forming device (12) through a discharge channel (11), and performing static pressure forming for later use.

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