CN112710817A - Test system and test method of sand moisture content for indoor construction sand - Google Patents

Abstract

The invention discloses a test system for indoor building sand circulation batching and a sand water content test method. The bottom of the aggregate bin is provided with a discharge baffle; the conveying line body is used for conveying materials upwards in an inclined mode, and the lower end of the conveying line body is located below the material collecting hopper; the moving frame is located on one side of the upper end of the conveying line body and can move to the area where the collecting hopper is located, a driving mechanism capable of driving the blanking hopper to move up and down relative to the moving frame is arranged on the moving frame, and a blanking valve is arranged at the bottom of the blanking hopper. The test system is used for simulating the real batching scene of the concrete production line, providing a test environment for the sensor and facilitating the acquisition of dynamic measurement data of the sensor.

Description

Test system for indoor building sand circulating batching and sand water content test method

Technical Field

The invention relates to the technical field of testing of concrete ingredients, in particular to a test system for circulating ingredients of sand for indoor buildings.

Background

In recent years, under the promotion of the nation and governments at all levels, the premixed concrete industry in China is rapidly developed, and the premixed concrete is the country with the largest global premixed concrete usage. However, the concrete industry in China still has the defects of low overall technical content and low intelligent degree. In order to promote the development of the concrete industry to intelligent manufacturing, different types of sensors are required to be adopted to guide and monitor the production process of the concrete industry in a digital, networked and intelligent manner. For example, in the batching process of concrete, the performance characterization of various raw materials has a great influence on the performance of concrete, so that the performance of each raw material of concrete needs to be monitored in real time, data is collected and analyzed, and then production is guided, so as to realize intelligent production of concrete.

The intelligent manufacturing of concrete production needs to rely on different types of sensors to collect data, and most of measurement is carried out under the condition of being separated from the actual production environment in the traditional test environment, so that the difference between the measured data and the actual data of the actual production environment is large, the measurement result is difficult to represent, and the measurement distortion of the sensors is caused. Therefore, measurement of the properties of various concrete raw materials requires that the sensors perform tests of the working properties in the actual production environment. However, the actual production environment of concrete is complex, which is often not conducive to performance development tests of various types of sensors and devices and observation and analysis of test results, and therefore, an indoor concrete circulating batching test system is required to simulate the real batching environment of a concrete production line, so as to perform simulation tests on various types of sensors and observe test results more intuitively, and analyze details of the results. And (4) carrying out precision adjustment on the sensor according to the test result so as to achieve the optimal working state.

The concrete batching process mainly comprises two stages of feeding and batching and weighing, wherein the feeding stage is a stage of conveying materials such as sand, stones and the like from a material pile to a storage hopper of a mixing plant by a conveying belt, and the batching and weighing stage is a stage of dropping a collecting hopper to a weighing platform through a hopper valve. The detection of the raw material performance by the sensor is mainly carried out in the two stages, so the invention provides a test platform for various sensors aiming at the two processes.

Disclosure of Invention

In view of this, an object of the present invention is to provide a testing system for circulating proportioning of sand for indoor building, which is applied to simulate a real proportioning situation of a concrete production line, provide a testing environment for a sensor, and facilitate obtaining dynamic measurement data of the sensor.

The invention also aims to provide a method for testing the water content of the sand by using the test system for the indoor building sand circulating batching.

The technical scheme adopted by the invention for solving the technical problem is as follows:

a test system of sand circulation batching for indoor building, it includes:

the bottom of the collecting hopper is provided with a discharging baffle;

the conveying line body is used for conveying materials upwards in an inclined mode, and the lower end of the conveying line body is located below the material collecting hopper;

the moving frame is located on one side of the upper end of the conveying line body and can move to the area where the collecting hopper is located, the moving frame is provided with a blanking hopper and a driving mechanism capable of driving the blanking hopper to move up and down relative to the moving frame, and a blanking valve is arranged at the bottom of the blanking hopper.

In a preferred scheme of the invention, the collecting hopper is connected with a fixed bracket for supporting the collecting hopper.

In a preferred embodiment of the present invention, the conveyor line body includes a conveying support and a transmission belt disposed on the conveying support, a plurality of baffles are disposed on the transmission belt at intervals, and a groove for accommodating sand is formed between every two baffles.

In a preferred scheme of the invention, the bottom of the moving frame is provided with a roller, and the roller is provided with a locking device capable of locking the roller.

In a preferred embodiment of the present invention, the rollers are universal wheels.

In a preferred scheme of the invention, the driving mechanism comprises a motor arranged on the moving frame, at least two groups of ball screw nut pairs and a transmission mechanism, each group of ball screw nut pair comprises a ball nut and a vertical screw rod, all the ball nuts are connected with the blanking hopper, and the motor is connected with all the vertical screw rods through the transmission mechanism so as to drive all the vertical screw rods to synchronously rotate.

In a preferred embodiment of the invention, the transmission mechanism comprises a transfer case connected to the output of the electric motor, the transfer case having at least two outputs, each output of the transfer case being connected to a vertical spindle by means of a transverse transmission shaft and a coupling.

The method for testing the water content of the sand applies the test system for the circulating proportioning of the sand for the indoor building, and comprises the following steps of:

A. filling sand into a collecting hopper;

B. the unloading baffle plate under the aggregate bin is drawn out, so that the sand in the aggregate bin falls into the lower end of the conveyor line body;

C. the conveying line body is started, sand is conveyed towards the upper end of the conveying line body, and the sand falls into a blanking hopper from the upper end of the conveying line body;

D. the driving mechanism is started to drive the blanking hopper to ascend, then the moving frame is moved to enable the blanking hopper to move to the position right above the aggregate hopper, then the blanking valve is opened, and sand falls into the aggregate hopper from the blanking hopper;

E. in the process of falling of the sand, a monitoring probe of the sand moisture content on-line monitoring sensor is placed between a falling hopper and a collecting hopper, the monitoring probe is contacted with the falling sand, data related to the moisture content is measured, and the data are transmitted to a computer.

In a preferred embodiment of the present invention, after step E is completed, the following steps are performed:

F. taking sand in a collecting hopper, and measuring the water content of the sand by adopting a method recorded in JGJ 52-2006-quality and inspection method standard for sand and stone for common concrete;

G. comparing the water content measured in the step E with the water content measured in the step F, then adjusting parameters of the sensor, and performing secondary fitting calibration on the parameters of the sensor; the measurement precision of the sensor is improved;

H. and D, repeating the steps A to E, and measuring the water content of the sand by using the sand water content on-line monitoring sensor again.

The invention has the beneficial effects that: the test system for the indoor building sand circulation batching, provided by the invention, can simulate the real batching scene of a concrete production line, provides a test environment for the sensor, and is convenient for acquiring the dynamic measurement data of the sensor and adjusting the sensor so as to improve the measurement precision of the sensor.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic diagram of the loading stage of the present invention;

FIG. 3 is a schematic diagram of the construction of the drop hopper lifting stage of the present invention;

fig. 4 is a schematic diagram of the blanking stage of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly. In addition, the descriptions related to "preferred", "less preferred", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "preferred" or "less preferred" may explicitly or implicitly include at least one such feature.

Referring to fig. 1 to 4, the invention provides a testing system for indoor building sand circulation batching, which comprises a collecting hopper 10, a conveying line body 9, a moving frame 13 and a blanking hopper 8 arranged on the moving frame 13.

The bottom of the aggregate bin 10 is provided with a discharge baffle 11; the conveying line body 9 is used for conveying materials obliquely upwards, and the lower end of the conveying line body 9 is positioned below the aggregate bin 10; the moving frame 13 is positioned on one side of the upper end of the conveyor line body 9 and can move to the area of the collecting hopper 10, a driving mechanism capable of driving the blanking hopper 8 to move up and down relative to the moving frame 13 is arranged on the moving frame 13, and a blanking valve is arranged at the bottom of the blanking hopper 8.

The method for testing the water content of the sand by applying the test system comprises the following steps:

A. the aggregate bin 10 is filled with sand.

B. The discharge baffle 11 under the collection hopper 10 is withdrawn, so that the sand in the collection hopper 10 falls into the lower end of the conveyor line body 9. The process simulates the ingredient weighing stage of actual production.

C. The conveyor line body 9 is started to convey the sand towards the upper end of the conveyor line body 9, so that the sand falls into the blanking hopper 8 from the upper end of the conveyor line body 9. The process simulates the process of transporting sand from the ground to the high of a batching building by a conveyor belt when actually producing concrete batching.

D. The driving mechanism is started to drive the blanking hopper 8 to ascend, then the moving frame 13 is moved to enable the blanking hopper 8 to move to the position right above the aggregate hopper 10, then the blanking valve is opened, and sand falls into the aggregate hopper 10 from the blanking hopper 8.

E. During the falling of the sand, a monitoring probe 14 of the on-line monitoring sensor for the water content of the sand is placed between the falling hopper 8 and the collecting hopper 10, the monitoring probe 14 is contacted with the falling sand, data related to the water content, such as the water content of the sand and the function relation of the water content of the sand and the time, is measured, and the data is transmitted to the computer.

As a further improvement of the test method, after the step E is completed, the following steps are performed:

F. the water content of the sand in the collecting hopper 10 is measured by a method recorded in JGJ 52-2006-Standard test method for the quality of the sand and the stone for ordinary concrete.

G. And D, comparing the water content measured in the step E with the water content measured in the step F, then adjusting parameters of the sensor, and performing secondary fitting calibration on the parameters of the sensor to improve the measurement accuracy of the sensor.

H. And D, repeating the steps A to E, and measuring the water content of the sand by using the sand water content on-line monitoring sensor again.

In the testing method, the online monitoring sensor for the water content of the sand can be integrated in the testing system, the measurement precision of the sensor can be detected through dynamic monitoring, and the parameters of the sensor can be adjusted according to the monitoring result.

In the invention, the bottom of the moving frame 13 is provided with a roller 7, and the roller 7 is provided with a locking device capable of locking the roller. The locking device can adopt a common roller 7 lock, when the unlocking device is unlocked, the movable frame 13 can be pushed to move, and when the locking device is locked, the position of the movable frame 13 is fixed. Preferably, the roller 7 is a universal wheel, and can be steered freely.

In a preferred embodiment of the present invention, the aggregate bin 10 is a double-bin aggregate bin 10, the aggregate bin 10 has two bins, and a discharge baffle 11 is disposed below each of the two bins. Two feed bins can be used for depositing two kinds of materials respectively, can lift one of them material alone as required and test.

The conveyor body 9 includes a conveyor frame 901 and a belt 902 provided on the conveyor frame 901. The conveyer belt is driven by motor 1, can select for use the conveyer belt of different grade type according to the difference of material. For example, when the material is sand, the material is preferably conveyed by using a conveyor belt with baffles 903, and a groove for accommodating the sand is formed between every two baffles 903, so that the sand can be smoothly conveyed upwards along the conveyor line body 9.

Referring to fig. 1, the driving mechanism includes a motor 1 disposed on the moving frame 13, at least two sets of ball screw nut pairs, and a transmission mechanism, each set of ball screw nut pair includes a ball nut 6 and a vertical screw 5, all the ball nuts 6 are connected with the blanking hopper 8, and the motor 1 is connected with all the vertical screws 5 through the transmission mechanism to drive all the vertical screws 5 to rotate synchronously. The ball screw nut pairs are preferably four in number, and by adopting such a mechanism, the respective screws can be synchronously rotated to drive the blanking hopper 8 to stably ascend and descend.

In a preferred embodiment of the present invention, the transmission mechanism includes a transfer case 2 connected to the output end of the motor 1, the transfer case 2 has two output ends, each output end of the transfer case 2 is connected to a vertical screw 5 through a horizontal transmission shaft 3 and a coupling 4, the coupling 4 can also be connected to other transmission shafts 3, and the transmission shafts are connected to the other vertical screws 5 through the coupling 4. By adopting the transmission structure, the structure is simple and practical, and the occupied space is small.

In some aspects of the present invention, the above-mentioned transmission mechanism may also adopt a timing belt mechanism or the like as a backup.

To provide support for the collection hopper 10, a fixed support for supporting the collection hopper 10 is attached to the collection hopper 10.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which can be directly or indirectly applied to other related technical fields without departing from the spirit of the present invention, are intended to be included in the scope of the present invention.

Claims (9)

1. a test system for indoor building sand circulation batching, is characterized in that, it comprises: a collecting hopper (10), a discharge baffle plate (11) is provided at the bottom of the collecting hopper (10); The conveying line body (9) is used for conveying the material upwards obliquely, and the lower end of the conveying line body (9) is located below the collecting hopper (10); A moving frame (13) is located on the side where the upper end of the conveying line body (9) is located and can be moved to the area where the collecting hopper (10) is located, the moving frame (13) is provided with a hopper (8) ) and a driving mechanism capable of driving the blanking hopper (8) to move up and down relative to the moving frame (13), and a blanking valve is provided at the bottom of the blanking hopper (8). 2 . The test system for indoor construction sand circulation batching according to claim 1 , wherein the collecting hopper ( 10 ) is connected with a fixing bracket ( 12 ) for supporting the collecting hopper ( 10 ). 3 . 3. The test system for indoor construction sand circulation batching according to claim 1, wherein the conveying line body (9) comprises a conveying support (901) and a transmission belt (901) arranged on the conveying support (901). 902), a plurality of baffles (903) are arranged at intervals on the conveyor belt, and a groove for accommodating sand is formed between every two baffles (903). 4. The test system for indoor construction sand circulation batching according to claim 1, wherein the bottom of the moving frame (13) is provided with a roller (7), and the roller (7) is provided with a roller (7) capable of locking device to lock it. 5 . The test system for indoor construction sand circulation batching according to claim 4 , wherein the roller ( 7 ) is a universal wheel. 6 . 6 . The test system for indoor construction sand circulation batching according to claim 1 , wherein the driving mechanism comprises a motor ( 1 ) arranged on the moving frame ( 13 ), at least two sets of ball wires Rod nut pair and transmission mechanism, each set of ball screw nut pair includes a ball nut (6) and a vertical screw (5), all the ball nuts (6) and the blanking hopper (8) The motor (1) is connected with all the vertical screw rods (5) through the transmission mechanism to drive all the vertical screw rods (5) to rotate synchronously. 7. The test system for indoor construction sand circulation batching according to claim 6, wherein the transmission mechanism comprises a transfer case (2) connected to the output end of the motor (1), and the The transfer case (2) has at least two output ends, and each output end of the transfer case (2) passes through a transverse drive shaft (3), a coupling (4) and a vertical screw rod (5). )connect. 8. a sand moisture content testing method, is characterized in that, it has applied the test system of indoor construction sand circulation batching as described in any one in claim 1 to 7, comprises the following steps: A. Load sand into the hopper (10); B. Pull out the discharge baffle (11) under the collecting hopper (10), so that the sand in the collecting hopper (10) falls into the lower end of the conveying line body (9); C. The conveying line body (9) is started, and the sand is transported toward the upper end of the conveying line body (9), so that the sand falls into the hopper (8) from the upper end of the conveying line body (9); D. The drive mechanism starts, drives the blanking hopper (8) to rise, and then moves the moving frame (13), so that the blanking hopper (8) moves to the top of the collecting hopper (10), then opens the blanking valve, and the sand Falling from the hopper (8) into the collecting hopper (10); E. During the process of sand falling, place the monitoring probe (14) of the online monitoring sensor of sand moisture content between the hopper (8) and the collecting hopper (10), so that the monitoring probe (14) is in contact with the falling sand, Data related to water content is measured and transmitted to a computer. 9. sand moisture content testing method according to claim 8 is characterized in that, after step E is completed, carry out the following steps: F. Take the sand in the collecting hopper (10), and measure the water content of the sand by the method recorded in JGJ52-2006-"Standards for Sand and Stone Quality and Inspection Methods for Ordinary Concrete"; G. Compare the water content measured in step E with the water content measured in step F, then adjust the parameters of the sensor, and perform quadratic fitting and calibration on the parameters of the sensor; improve the measurement accuracy of the sensor; H. Repeat steps A to E, and use the sand moisture content online monitoring sensor again to measure the sand moisture content.

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