CN214447452U - Agitating unit of intelligence ratio - Google Patents

Abstract

The application relates to the field of concrete stirring devices, in particular to an intelligent-proportioning stirring device, which has the technical scheme that the stirring device comprises a sand quantity control mechanism and a stone quantity control mechanism; the sand quantity control mechanism comprises a sand material barrel, a sand quantity bearing platform is arranged at the bottom of the sand material barrel, a first pressure sensor is arranged on the sand quantity bearing platform, and the sand material barrel is placed on the first pressure sensor; the stone quantity control mechanism comprises a stone barrel, a stone quantity bearing platform is arranged at the bottom of the stone barrel, a second pressure sensor is arranged on the stone quantity bearing platform, and the stone barrel is placed on the second pressure sensor; the first pressure sensor and the second pressure sensor are jointly coupled with a PLC (programmable logic controller), and a sand material weight value and a stone material weight value are set in the PLC; the PLC is coupled with a display screen; the aim of more accurately proportioning the sand and stone to improve the performance quality of the concrete and improve the operation efficiency of proportioning the sand and stone is fulfilled.

Description

Agitating unit of intelligence ratio

Technical Field

The application relates to a concrete mixing device field especially relates to a agitating unit of intelligence ratio.

Background

With the continuous development of times and the continuous progress of the building industry, concrete is an indispensable part of the building industry, the concrete is a general name of engineering composite materials formed by cementing aggregate into a whole by cementing materials, and the concrete is a building material formed by mixing and stirring cement serving as the cementing materials and sand and stone serving as the aggregate according to a certain mass ratio; the mass ratio of the sand and stone directly influences the performance of the concrete; therefore, sand-to-sand ratio is very important in the actual concrete mixing process.

The concrete gravel proportion recorded in the related technology is mostly that workers take sand and stones with a fixed mass ratio according to the required gravel ratio through experience, and then mix the gravel and the stones together.

In view of the above-mentioned related art solutions, the inventors found that: the method is easy to cause inaccurate sand-stone proportion, thereby affecting the performance of concrete and having lower efficiency.

SUMMERY OF THE UTILITY MODEL

In order to make the grit ratio more accurate in order to improve the performance quality of concrete to improve the operating efficiency of grit ratio, this application provides the agitating unit of intelligence ratio.

The application provides a agitating unit of intelligence ratio adopts following technical scheme:

an intelligent proportioning stirring device comprises a sand quantity control mechanism and a stone quantity control mechanism; the sand quantity control mechanism comprises a sand material barrel, a sand quantity bearing platform is arranged at the bottom of the sand material barrel, a first pressure sensor is arranged on the sand quantity bearing platform, and the sand material barrel is placed on the first pressure sensor; the stone quantity control mechanism comprises a stone barrel, a stone quantity bearing platform is arranged at the bottom of the stone barrel, a second pressure sensor is arranged on the stone quantity bearing platform, and the stone barrel is placed on the second pressure sensor; the first pressure sensor and the second pressure sensor are jointly coupled with a PLC; a display screen is coupled to the PLC.

By adopting the technical scheme, the sand is continuously input into the sand barrel, the first pressure sensor monitors the weight of the sand in the sand barrel in real time in the input process, and the weight of the sand is displayed on the display screen through the PLC; continuously inputting the stone into the stone barrel, monitoring the weight of the stone in the stone barrel in real time by a second pressure sensor in the input process, and displaying the weight of the stone on a display screen through a PLC (programmable logic controller); workers monitor the weight of the sand and the stone through a display screen, when the requirements and the proportion of the sand and the stone are met, the input of the sand and the stone is stopped, the sand and the stone are respectively taken out from a sand barrel and a stone barrel, and then the subsequent stirring is carried out; therefore, the sand-stone proportioning is more accurate, the performance quality of concrete is improved, and the operation efficiency of sand-stone proportioning is improved.

Preferably, the sand charging bucket is of a rectangular cylindrical structure with an upward opening, and one side wall of the sand charging bucket is provided with an opening; the side wall of the opening of the sand material barrel is provided with a sand material baffle, and two vertical side edges of the sand material baffle are connected with the sand material barrel in a sliding way; one side of sand storage bucket is provided with the first driving piece that can drive sand material baffle and reciprocate.

Through adopting above-mentioned technical scheme, when the sand material in the sand storage bucket is taken out to needs, start first driving piece, first driving piece drives sand material baffle upward movement to certain distance, and then makes the lateral wall of sand storage bucket open, and the sand storage bucket is inside to expose in lateral wall department, and the inside sand material of sand storage bucket and then let out from the sand storage bucket is inside by oneself.

Preferably, the stone bucket is of a rectangular cylindrical structure with an upward opening, and one side wall of the stone bucket is provided with an opening; a stone baffle is arranged on the side wall of the opening of the stone bucket, and two vertical side edges of the stone baffle are in sliding connection with the stone bucket; one side of stone storage bucket is provided with the second driving piece that can drive building stones baffle and reciprocate.

Through adopting above-mentioned technical scheme, when needs take out the building stones in the stone storage bucket, start the second driving piece, the second driving piece drives building stones baffle upward movement to certain distance, and then makes the lateral wall of stone storage bucket open, and building stones barrel inside exposes in lateral wall department, and the building stones of building stones barrel inside and then leaks from building stones barrel inside by oneself.

Preferably, the first driving part adopts a first hydraulic cylinder, and the second driving part adopts a second hydraulic cylinder; first pneumatic cylinder and second pneumatic cylinder all are coupled with PLC, and PLC is inside to be set for there being sand material weight value and building stones weight value.

By adopting the technical scheme, when the weight of the sand in the sand material barrel reaches the weight value of the sand in the PLC, the first hydraulic cylinder drives the sand material baffle plate to move upwards so as to automatically discharge the sand material in the sand material barrel; when the weight of the stone in the stone barrel reaches the weight value of the stone in the PLC, the second hydraulic cylinder drives the stone baffle to move upwards so as to automatically discharge the stone in the stone barrel; therefore, manual operation is not needed to discharge the sand and the stone, the automation of the sand and the stone discharge is realized, the working efficiency is improved to a certain extent, and the workload of taking the sand and the stone is reduced.

Preferably, the bottom of the sand bucket is inclined downwards along the direction from far away to close to the sand baffle; the bottom of the stone bucket is inclined downwards along the direction from far away to close to the stone baffle.

By adopting the technical scheme, after the sand material baffle is opened, sand materials can slide out of the sand material barrel along the inclined direction of the barrel bottom of the sand material barrel through self-weight, so that the sand material accumulation in the sand material barrel can be reduced; the stone works in the same way.

Preferably, a screen is arranged right above the sand charging barrel, and the screen is obliquely arranged above the opening of the sand charging barrel; the lower extreme of screen cloth is provided with the waste material conveyer belt, and the waste material conveyer belt setting is in one side of sand storage bucket.

Through adopting above-mentioned technical scheme, the screen cloth can filter away from the sand material with impurity such as the great rubble of volume in the sand material, and the impurity that is sieved falls to the waste material conveyer belt along the incline direction of screen cloth on and is derived by the waste material conveyer belt.

Preferably, a sand spiral feeding machine is arranged on one side of the sand barrel, and a discharge port of the sand spiral feeding machine is positioned above the sand barrel; a stone spiral feeding machine is arranged on one side of the stone barrel, and a discharge port of the stone spiral feeding machine is located above the stone barrel.

Through adopting above-mentioned technical scheme, through setting up sand material spiral feeding machine and building stones spiral feeding machine, made things convenient for people to the material loading of sand material and building stones, and then reduced the material loading work load of sand material or building stones.

Preferably, the sand material baffle and the stone material baffle are arranged on the same side of the sand material barrel and the stone material barrel; a material mixing conveyor belt is arranged on the same side of the sand material barrel and the stone material barrel and is positioned on one side of the sand material baffle plate and the stone material baffle plate; the one end that stone storage bucket was kept away from to the compounding conveyer belt is provided with the concrete mixing jar, and the compounding conveyer belt can be with sand material and building stones to concrete mixing jar inside transport.

Through adopting above-mentioned technical scheme, the sand material that lets out from the sand storage bucket reaches the compounding conveyer belt together with the building stones that lets out from the building stones bucket on to carry through the compounding conveyer belt and stir to concrete mixing tank inside, do not need people to add the building stones and the sand material that the ratio was accomplished through the manpower specially like this in the concrete mixing tank, reduced the work load of gravel mixing to a certain extent.

In summary, the present application has the following technical effects:

1. by arranging the sand material barrel, the stone material barrel, the first pressure sensor, the second pressure sensor, the PLC and the display screen, workers monitor the weight of the sand material and the stone material through the display screen, when the requirements and the proportion of the sand amount and the stone amount are met, the input of the sand material and the stone material is stopped, and the sand material and the stone material are respectively taken out of the sand material barrel and the stone material barrel; therefore, the sand and stone proportioning is more accurate, the performance quality of concrete is improved, and the operation efficiency of sand and stone proportioning is improved;

2. through having set up sand material baffle, building stones baffle, first pneumatic cylinder and second pneumatic cylinder, do not need manual operation so that sand material and building stones discharge, and then realized sand material and building stones exhaust automation, improved work efficiency to a certain extent and reduced the work load that sand material and building stones were got the material.

Drawings

FIG. 1 is an overall configuration diagram of a stirring device in an embodiment of the present application;

fig. 2 is an overall configuration diagram of the stirring device in the embodiment of the present application from another perspective.

In the figure, 1, a sand amount control mechanism; 11. a sand bucket; 12. a sand load bearing platform; 13. a first pressure sensor; 14. a sand screening assembly; 141. screening a screen; 142. a waste conveyor; 15. a sand material spiral feeding machine; 16. a sand material baffle; 17. a first hydraulic cylinder; 2. a stone amount control mechanism; 21. a stone bucket; 22. a stone load bearing platform; 23. a second pressure sensor; 24. a stone spiral feeding machine; 25. a stone baffle; 26. a second hydraulic cylinder; 3. a mixing conveyor belt; 4. a display screen; 5. a concrete mixing tank.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

Referring to fig. 1, the application provides an intelligent proportioning stirring device, which comprises a sand amount control mechanism 1 and a stone amount control mechanism 2, wherein the sand amount control mechanism 1 and the stone amount control mechanism 2 can respectively measure the weight of sand and the quality of stone, and when the weight of the sand added into the sand amount control mechanism 1 and the weight of the stone added into the stone amount control mechanism 2 reach preset values or the weight proportion of sand and stone, the sand and the stone are taken out for subsequent stirring; the process does not need manual control of the sand-stone ratio according to experience, so that the sand-stone ratio is more accurate, the performance quality of concrete is improved, and the operation efficiency of the sand-stone ratio is improved.

Referring to fig. 1 and 2, the sand amount control mechanism 1 includes a sand material barrel 11 vertically arranged, and the sand material barrel 11 is a rectangular tubular structure with an upward opening; a sand load bearing platform 12 fixed on the ground is arranged below the sand bucket 11, a first pressure sensor 13 is arranged on the upper surface of the sand load bearing platform 12, and the sand bucket 11 is placed on the first pressure sensor 13; the stone quantity control mechanism 2 comprises a stone material barrel 21 which is vertically arranged, and the stone material barrel 21 is of a rectangular cylindrical structure with an upward opening; a stone load bearing platform 22 fixed on the ground is arranged below the stone bucket 21, a second pressure sensor 23 is arranged on the upper surface of the stone load bearing platform 22, and the stone bucket 21 is placed on the second pressure sensor 23; the first pressure sensor 13 and the second pressure sensor 23 are simultaneously coupled with a PLC (programmable logic controller), the PLC is coupled with the display screen 4, and the display screen 4 is fixed on the outer barrel wall of the stone barrel 21; the first pressure sensor 13 can measure the weight of the sand in the sand barrel 11 in real time and display the weight on the display screen 4 through the PLC; the second pressure sensor 23 can measure the weight of the stone in the stone barrel 21 in real time and display the weight on the display screen 4 through the PLC; workers can obtain the addition amount of the sand and the stone through real-time measurement values of the weight of the sand and the weight of the stone displayed on the display screen 4; PLC can calculate the weight ratio of building stones and sand material and show through display screen 4, after satisfying the weight and the ratio requirement of building stones and sand material, stop feeding in sand storage bucket 11 and building stones bucket 21 to sand material and building stones that will add are taken out and are prepared for subsequent concrete mixing process.

Referring to fig. 1 and 2, one side wall of the sand material barrel 11 is provided with an opening and a vertical sand material baffle 16, the sand material baffle 16 is matched with the side wall of the sand material barrel 11 in area, and two vertical side edges of the sand material baffle 16 are slidably connected with the side wall of the sand material barrel 11; a first driving piece capable of driving the sand material baffle 16 to move up and down is arranged above the sand material baffle 16, the first driving piece adopts a first hydraulic cylinder 17 arranged on one side of the sand material barrel 11, a piston rod of the first hydraulic cylinder 17 extends vertically and downwards, and the lower end of the piston rod of the first hydraulic cylinder 17 is fixedly connected with the top of the sand material baffle 16; one side wall of the stone barrel 21 is provided with an opening and is provided with a vertical stone baffle 25, the stone baffle 25 is matched with the side wall of the stone barrel 21 in area, and two vertical side edges of the stone baffle 25 are in sliding connection with the side wall of the stone barrel 21; a second driving piece capable of driving the stone baffle 25 to move up and down is arranged above the stone baffle 25, the second driving piece adopts a second hydraulic cylinder 26 arranged on one side of the stone barrel 21, a piston rod of the second hydraulic cylinder 26 extends vertically and downwards, and the lower end of the piston rod of the second hydraulic cylinder 26 is fixedly connected with the top of the stone baffle 25; first pneumatic cylinder 17 and second pneumatic cylinder 26 all are coupled with the PLC, and PLC inside is set for the preset weight value that has sand material and building stones.

Referring to fig. 1 and 2, when the added sand and stone reach a preset weight value inside the PLC, the PLC respectively controls the first hydraulic cylinder 17 and the second hydraulic cylinder 26 to start, a piston rod of the first hydraulic cylinder 17 drives the sand baffle 16 to move upwards, the position inside the sand barrel 11 at the bottom of the sand baffle 16 is communicated with the outside, and the sand is discharged through an opening on the side wall of the sand barrel 11; the piston rod of the second hydraulic cylinder 26 drives the stone baffle 25 to move upwards, the position of the inner part of the stone barrel 21 at the bottom of the stone baffle 25 is communicated with the outside, and stones are discharged through the opening of the side wall of the stone barrel 21; therefore, manual operation is not needed to discharge the sand and the stone, the automation of the sand and the stone discharge is realized, the working efficiency is improved to a certain extent, and the workload of taking the sand and the stone is reduced.

Referring to fig. 1 and 2, the bottom of the stone bucket 21 is inclined upward in a direction from close to far from the stone dam 25; the bottom of the sand bucket 11 is inclined upwards along the direction from the side close to the sand baffle 16 to the side far away from the sand baffle 16; like this, sand and building stones can be discharged through the dead weight by oneself along the incline direction of the barrel head, and then has reduced the accumulation of the inside material of sand storage bucket 11 and building stones bucket 21.

Referring to fig. 1 and 2, the sand and stone baffles 16 and 25 are coplanar, i.e., the sand and stone baffles 16 and 25 are disposed on the same side of the sand and stone barrels 11 and 21; a mixing conveyor belt 3 is arranged on one side, provided with a sand baffle 16, of the sand bucket 11, one end of the mixing conveyor belt 3 horizontally extends towards one side, provided with a stone baffle 25, of the stone bucket 21, and the other end of the mixing conveyor belt 3 is inclined upwards along the direction from the side close to the sand bucket 11 to the side far away from the sand bucket 11; a concrete stirring tank 5 is arranged at the upper end of the mixing conveyor belt 3, the upper end of the mixing conveyor belt 3 extends to a feed inlet of the concrete stirring tank 5 and can convey sand and stones falling onto the mixing conveyor belt 3 into the concrete stirring tank 5; therefore, people do not need to add stone and sand which are proportioned to the concrete mixing tank 5 specially through manpower, and the workload of sand mixing is reduced to a certain extent.

Referring to fig. 1 and 2, a sand spiral feeder 15 fixed on the ground is arranged on one side of the sand bucket 11 away from the stone bucket 21, and an output port of the sand spiral feeder 15 is vertically downward and faces the inside of the sand bucket 11; a stone spiral feeding machine 24 fixed on the ground is arranged on one side of the stone barrel 21 far away from the sand barrel 11, and an output port of the stone spiral feeding machine 24 is vertically downward and faces the interior of the stone barrel 21; the sand material barrel 11 is provided with a sand screening assembly 14 capable of screening impurities in the sand material from the sand material, and the sand screening assembly 14 comprises a screen 141 which is fixed at the top of the sand material barrel 11 and inclines downwards along the direction from the near to the far away from the mixing conveyor belt 3; the screen 141 is positioned right above the opening of the sand barrel 11 and below the output port of the sand spiral feeder 15; the lower end of the screen 141 is provided with a waste conveyor belt 142 positioned on one side of the sand bucket 11 far away from the mixing conveyor belt 3, and the horizontal extending direction of the waste conveyor belt 142 is the same as that of the mixing conveyor belt 3; the sand material spiral feeding machine 15 and the stone material spiral feeding machine 24 are convenient for people to add sand materials or stone materials into the sand material barrel 11 or the stone material barrel 21 from the ground, and further the feeding workload of the sand materials or the stone materials is reduced; the screen 141 can filter out impurities such as crushed stones having a large volume in the sand from the sand, and the screened impurities roll down onto the waste conveyor 142 along the inclination direction of the screen 141 and are led out by the waste conveyor 142.

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.

Claims (8)

1. The utility model provides an agitating unit of intelligence ratio which characterized in that: comprises a sand quantity control mechanism (1) and a stone quantity control mechanism (2); the sand quantity control mechanism (1) comprises a sand material barrel (11), a sand quantity bearing platform (12) is arranged at the bottom of the sand material barrel (11), a first pressure sensor (13) is arranged on the sand quantity bearing platform (12), and the sand material barrel (11) is placed on the first pressure sensor (13); the stone quantity control mechanism (2) comprises a stone barrel (21), a stone quantity bearing platform (22) is arranged at the bottom of the stone barrel (21), a second pressure sensor (23) is arranged on the stone quantity bearing platform (22), and the stone barrel (21) is placed on the second pressure sensor (23); the first pressure sensor (13) and the second pressure sensor (23) are jointly coupled with a PLC; a display screen (4) is coupled to the PLC.

2. The stirring device of intelligent proportioning of claim 1, wherein: the sand charging barrel (11) is of a rectangular tubular structure with an upward opening, and one side wall of the sand charging barrel (11) is provided with an opening; a sand material baffle (16) is arranged on the side wall of the opening of the sand material barrel (11), and two vertical side edges of the sand material baffle (16) are in sliding connection with the sand material barrel (11); one side of the sand material barrel (11) is provided with a first driving piece which can drive the sand material baffle (16) to move up and down.

3. The stirring device of claim 2, wherein: the stone bucket (21) is of a rectangular cylindrical structure with an upward opening, and one side wall of the stone bucket (21) is provided with an opening; a stone baffle (25) is arranged on the side wall of the opening of the stone bucket (21), and two vertical side edges of the stone baffle (25) are in sliding connection with the stone bucket (21); one side of the stone barrel (21) is provided with a second driving piece which can drive the stone baffle plate (25) to move up and down.

4. The stirring device of claim 3, wherein: the first driving piece adopts a first hydraulic cylinder (17), and the second driving piece adopts a second hydraulic cylinder (26); first pneumatic cylinder (17) and second pneumatic cylinder (26) all are coupled with PLC, and PLC is inside to be set for sand material weight value and building stones weight value.

5. The stirring device of claim 4, wherein: the bottom of the sand material barrel (11) is inclined downwards along the direction from far away to close to the sand material baffle (16); the bottom of the stone bucket (21) is inclined downwards along the direction from far away to close to the stone baffle plate (25).

6. The stirring device of claim 5, wherein: a screen (141) is arranged right above the sand material barrel (11), and the screen (141) is obliquely arranged above the barrel opening of the sand material barrel (11); the lower end of the screen (141) is provided with a waste conveyor belt (142), and the waste conveyor belt (142) is arranged on one side of the sand bucket (11).

7. The stirring device of claim 6, wherein: a sand spiral feeding machine (15) is arranged on one side of the sand barrel (11), and a discharge hole of the sand spiral feeding machine (15) is positioned above the screen (141); a stone spiral feeding machine (24) is arranged on one side of the stone barrel (21), and a discharge hole of the stone spiral feeding machine (24) is positioned above the stone barrel (21).

8. The stirring device of claim 7, wherein: the sand material baffle (16) and the stone material baffle (25) are arranged on the same side of the sand material barrel (11) and the stone material barrel (21); a mixing conveyor belt (3) is arranged on the same side of the sand barrel (11) and the stone barrel (21), and the mixing conveyor belt (3) is positioned on one side of the sand baffle plate (16) and one side of the stone baffle plate (25); one end of the mixing conveyor belt (3) far away from the stone barrel (21) is provided with a concrete stirring tank (5), and the mixing conveyor belt (3) can convey sand and stone to the inside of the concrete stirring tank (5).

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