CN212826105U - Stabilized soil microcomputer dosing unit - Google Patents
Stabilized soil microcomputer dosing unit Download PDFInfo
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- CN212826105U CN212826105U CN202020893990.7U CN202020893990U CN212826105U CN 212826105 U CN212826105 U CN 212826105U CN 202020893990 U CN202020893990 U CN 202020893990U CN 212826105 U CN212826105 U CN 212826105U
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Abstract
The utility model discloses a stabilized soil microcomputer batching device, which comprises a bone hopper, a powder bin and a speed-regulating water pump, wherein a discharge port of the bone hopper is connected to a feeding end of a speed-regulating belt weigher, a discharging end of the speed-regulating belt weigher is connected to an aggregate belt conveyor, and a discharging end of the aggregate belt conveyor is connected to a feeding end of an inclined conveyor; the discharge port of the powder bin is connected to the feed port of the screw conveyor, the discharge port of the screw conveyor is connected to the feed port of the powder hopper, the discharge port of the powder hopper is connected to the feed port of the speed-regulating screw conveyor, the discharge port of the speed-regulating screw conveyor is connected to the feed port of the screw scale, and the discharge port of the screw scale is arranged at the feeding end of the inclined conveyor; the utility model can change the discharging amount of the aggregate, thereby achieving the purpose of controlling the proportioning of the aggregate; the discharge amount of the powder can be changed, so that the aim of controlling the cement ingredients is fulfilled; the discharge amount of water can be changed, so that the aim of controlling water proportioning is fulfilled.
Description
Technical Field
The utility model relates to a dosing unit technical field specifically is a stabilized soil computer dosing unit.
Background
The stabilized soil is a general name of a mixture obtained by mixing a binder such as cement, lime, fly ash and the like with soil. The method is widely used in road engineering. In the production and batching process, once the feeding amount of different raw materials is controlled inaccurately, the production quality of the stabilized soil is influenced, and the feeding amount of the raw materials needs to be controlled continuously.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a stabilized soil computer dosing unit to solve the problem of proposing among the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme: a stabilized soil microcomputer batching device comprises a bone hopper, a powder bin and a speed-regulating water pump, wherein a discharge port of the bone hopper is connected to a feeding end of a speed-regulating belt scale, a discharging end of the speed-regulating belt scale is connected to an aggregate belt conveyor, and a discharging end of the aggregate belt conveyor is connected to a feeding end of an inclined conveyor;
the discharge port of the powder bin is connected to the feed port of the screw conveyor, the discharge port of the screw conveyor is connected to the feed port of the powder hopper, the discharge port of the powder hopper is connected to the feed port of the speed-regulating screw conveyor, the discharge port of the speed-regulating screw conveyor is connected to the feed port of the screw scale, and the discharge port of the screw scale is arranged at the feeding end of the inclined conveyor;
the unloading end of slope conveyer is connected in the feed inlet department of compounding host computer, the material loading end in finished product material belt feeder is connected to the discharge gate of compounding host computer, the liquid outlet department of speed governing water pump is connected in the feed inlet department of compounding host computer through pipeline I, the liquid inlet department of speed governing water pump is connected in the liquid outlet department of water tank through pipeline II.
As a further optimization of the technical scheme, the discharge end of the finished product belt conveyor is arranged above the feed inlet at the top of the finished product bin.
As a further optimization of the technical scheme, the speed regulation belt scale enters a working state, aggregate is weighed by the speed regulation belt scale and conveyed to the aggregate belt conveyor, a weighing sensor on the speed regulation belt scale continuously generates signal change, the signal is fed back to the data acquisition controller through a signal amplifier, and the data acquisition controller outputs a signal to control the rotating speed of a motor of the speed regulation belt scale through a frequency converter, so that the aggregate discharge amount is changed, and the purpose of aggregate batching control is achieved.
As a further optimization of the technical scheme, the spiral scale enters a working state, the stress of a weighing sensor on the spiral scale is changed, a signal is fed back to the data acquisition controller through the signal amplifier, and the output signal of the data acquisition controller controls the rotating speed of a motor of the speed-regulating spiral machine through the frequency converter, so that the discharge amount of powder is changed, and the aim of controlling cement batching is fulfilled.
As the further optimization of the technical scheme, a turbine flowmeter is arranged on the pipeline II, water passes through the turbine flowmeter for timing, an impeller inside the pipeline rotates along with water flow, a sensor of the turbine flowmeter generates signal change, the signal change is fed back to a data acquisition controller, an output signal of the data acquisition controller controls the rotating speed of a motor of a speed-regulating water pump through a frequency converter, the discharge amount of the water is changed, and therefore the purpose of controlling water batching is achieved.
Compared with the prior art, the beneficial effects of the utility model are that: the utility model can change the discharging amount of the aggregate, thereby achieving the purpose of controlling the proportioning of the aggregate; the discharge amount of the powder can be changed, so that the aim of controlling the cement ingredients is fulfilled; the discharge amount of water can be changed, so that the aim of controlling water proportioning is fulfilled.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
In the figure: the automatic mixing machine comprises a bone hopper 1, a speed-regulating belt scale 2, a collecting belt conveyor 3, an inclined conveyor 4, a water tank 5, a speed-regulating water pump 6, a mixing main machine 7, a finished product belt conveyor 8, a finished product bin 9, a powder bin 10, a screw machine 11, a powder hopper 12, a speed-regulating screw machine 13 and a screw scale 14.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1, the present invention provides a technical solution: a stabilized soil microcomputer batching device comprises a bone hopper 1, a powder bin 10 and a speed-regulating water pump 6, wherein a discharge port of the bone hopper 1 is connected to a feeding end of a speed-regulating belt scale 2, a discharging end of the speed-regulating belt scale 2 is connected to an aggregate belt conveyor 3, and a discharging end of the aggregate belt conveyor 3 is connected to a feeding end of an inclined conveyor 4;
the discharge port of the powder bin 10 is connected to the feed port of the screw conveyor 11, the discharge port of the screw conveyor 11 is connected to the feed port of the powder hopper 12, the discharge port of the powder hopper 12 is connected to the feed port of the speed-regulating screw conveyor 13, the discharge port of the speed-regulating screw conveyor 13 is connected to the feed port of the screw scale 14, and the discharge port of the screw scale 14 is arranged at the feeding end of the inclined conveyor 4;
the unloading end of inclined conveyor 4 is connected in the feed inlet department of compounding host computer 7, the material loading end in finished product material belt conveyor 8 is connected to the discharge gate of compounding host computer 7, the liquid outlet department of speed governing water pump 6 is connected in the feed inlet department of compounding host computer 7 through pipeline I, the liquid inlet department of speed governing water pump 6 is connected in the liquid outlet department of water tank 5 through pipeline II.
Specifically, the discharge end of the finished product belt conveyor 8 is arranged above the feed inlet at the top of the finished product bin 9.
Specifically, speed governing belt weigher 2 gets into operating condition, and the aggregate is weighed and is carried the belt feeder 3 that gathers materials through speed governing belt weigher 2, the weighing sensor on the speed governing belt weigher 2 produces signal change in succession, and the signal passes through signal amplifier feedback to data acquisition controller, and data acquisition controller output signal passes through the motor speed of converter control speed governing belt weigher 2, changes the aggregate load to reach the purpose of aggregate batching control.
The weighing sensor mounting part of the speed regulation belt scale 2 is arranged below the belt and fixed by two screws. The front end of the weighing sensor is provided with an indicating arrow which faces downwards when the weighing sensor is installed. The black pressure head in the front of the weighing sensor is provided with an adjustable screw, and the height of the black pressure head can be adjusted according to actual conditions. The adjustment is based on the display value of the signal amplifier after the signal amplifier is connected with the weighing sensor, and the display value is preferably 10-20%.
Specifically, the spiral balance 14 enters a working state, the stress of a weighing sensor on the spiral balance 14 changes, a signal is fed back to the data acquisition controller through the signal amplifier, and the output signal of the data acquisition controller controls the rotating speed of a motor of the speed-regulating spiral machine 13 through the frequency converter, so that the discharge amount of powder is changed, and the purpose of controlling cement batching is achieved.
Specifically, be equipped with the turbine flowmeter on pipeline II, water passes through turbine flow timing, and its inside impeller rotates along with rivers, and the sensor of turbine flowmeter takes place signal variation, and signal variation feeds back to data acquisition controller, and data acquisition controller output signal passes through the rotational speed of the motor of converter control speed governing water pump 6, changes the load of water to reach the purpose of water batching control.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (5)
1. The utility model provides a stabilized soil computer dosing unit, includes aggregate bin (1), powder storehouse (10) and speed governing water pump (6), its characterized in that: the discharge port of the aggregate hopper (1) is connected to the feeding end of the speed-regulating belt scale (2), the discharging end of the speed-regulating belt scale (2) is connected to the aggregate belt conveyor (3), and the discharging end of the aggregate belt conveyor (3) is connected to the feeding end of the inclined conveyor (4);
the discharge hole of the powder bin (10) is connected to the feed inlet of the screw conveyor (11), the discharge hole of the screw conveyor (11) is connected to the feed inlet of the powder hopper (12), the discharge hole of the powder hopper (12) is connected to the feed inlet of the speed-regulating screw conveyor (13), the discharge hole of the speed-regulating screw conveyor (13) is connected to the feed inlet of the screw scale (14), and the discharge hole of the screw scale (14) is arranged at the feeding end of the inclined conveyor (4);
the unloading end of slope conveyer (4) is connected in the feed inlet department of compounding host computer (7), the material loading end in finished product material belt conveyor (8) is connected to the discharge gate of compounding host computer (7), the liquid outlet department of speed governing water pump (6) is connected in the feed inlet department of compounding host computer (7) through pipeline I, the liquid inlet department of speed governing water pump (6) is connected in the liquid outlet department of water tank (5) through pipeline II.
2. The stabilized soil microcomputer batching device according to claim 1, characterized in that: the discharge end of the finished product belt conveyor (8) is arranged above the feed inlet at the top of the finished product bin (9).
3. The stabilized soil microcomputer batching device according to claim 1, characterized in that: the aggregate feeding device is characterized in that the speed regulation belt weigher (2) enters a working state, aggregates are weighed by the speed regulation belt weigher (2) and conveyed to the aggregate belt conveyor (3), a weighing sensor on the speed regulation belt weigher (2) continuously generates signal changes, the signals are fed back to the data acquisition controller through a signal amplifier, and the output signals of the data acquisition controller control the rotating speed of a motor of the speed regulation belt weigher (2) through a frequency converter to change the aggregate discharge amount, so that the purpose of aggregate batching control is achieved.
4. The stabilized soil microcomputer batching device according to claim 1, characterized in that: the spiral scale (14) enters a working state, the stress of a weighing sensor on the spiral scale (14) is changed, a signal is fed back to the data acquisition controller through the signal amplifier, and the output signal of the data acquisition controller controls the rotating speed of a motor of the speed-regulating spiral machine (13) through the frequency converter to change the discharge amount of powder, so that the aim of controlling cement batching is fulfilled.
5. The stabilized soil microcomputer batching device according to claim 1, characterized in that: and a turbine flowmeter is arranged on the pipeline II, water is subjected to turbine flow timing, an impeller inside the pipeline rotates along with water flow, a sensor of the turbine flowmeter generates signal change, the signal change is fed back to the data acquisition controller, and an output signal of the data acquisition controller controls the rotating speed of a motor of the speed-regulating water pump (6) through a frequency converter to change the discharge amount of the water, so that the aim of controlling water batching is fulfilled.
Priority Applications (1)
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CN202020893990.7U CN212826105U (en) | 2020-05-25 | 2020-05-25 | Stabilized soil microcomputer dosing unit |
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CN202020893990.7U CN212826105U (en) | 2020-05-25 | 2020-05-25 | Stabilized soil microcomputer dosing unit |
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CN212826105U true CN212826105U (en) | 2021-03-30 |
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CN202020893990.7U Active CN212826105U (en) | 2020-05-25 | 2020-05-25 | Stabilized soil microcomputer dosing unit |
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2020
- 2020-05-25 CN CN202020893990.7U patent/CN212826105U/en active Active
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