Stirring device of slurry transfer station
Technical Field
The utility model belongs to the technical field of building construction, and particularly relates to a stirring device of a slurry transfer station.
Background
The building construction refers to the production activity of engineering construction implementation stage, which is the construction process of various buildings, and can be said to be the process of changing various lines on a design drawing into real objects at a designated place. The method comprises foundation engineering construction, main body structure construction, roof engineering construction, decoration engineering construction and the like. The site of construction is referred to as a "building site" or "job site," also known as a worksite.
The utility model provides a agitating unit of thick liquids transfer station, in construction, need use a large amount of concretes, consequently the concrete transfer car (buggy) need fill the concrete to the large-scale agitating unit below in the thick liquids transfer station, but current thick liquids agitating unit can not the ration add when adding the concrete, need the staff to control, but lack the accuracy through the mode of staff control, consequently to above-mentioned problem, the utility model relates to a agitating unit with ration filler function can effectually solve above-mentioned problem to labour saving and time saving more, it is faster to fill efficiency.
Disclosure of Invention
Aiming at the problems existing in the prior art, the utility model provides a stirring device of a slurry transfer station, which has the advantages of automatic quantitative filling, labor saving and improvement of filling efficiency, and solves the problems that the existing stirring device needs to manually control the addition amount, consumes labor and is inaccurate in filling amount when a concrete transfer vehicle is filled with concrete.
The utility model discloses a stirring device of a slurry transfer station, which comprises a large-scale stirrer body, wherein four supporting legs are arranged at the bottom of the large-scale stirrer body, a discharging pipe is communicated with the bottom of the large-scale stirrer body, a quantitative pipe is communicated with the bottom of the discharging pipe through a flange plate, a control shell is fixedly connected to the right side of the quantitative pipe, a driving assembly is fixedly connected to the right side of the control shell, a discharging pipe is communicated with the bottom of the quantitative pipe, a hose is communicated with the bottom of the discharging pipe, a ball valve is arranged in an inner cavity of the control shell, the left side of the ball valve is fixedly connected with the quantitative pipe through a shaft pin, a rotating speed controller is fixedly connected to the bottom of the right side of the inner cavity of the control shell, a flow velocity detector is fixedly connected to the bottom of the left side of the inner cavity of the control shell, and a detection end of the flow velocity detector penetrates into the quantitative pipe.
As the preferable one of the utility model, the driving assembly comprises a motor, the motor is electrically connected with a rotation speed controller, the left side of the motor is fixedly connected with a control shell, the output end of the motor penetrates through the inner cavity of the control shell and is fixedly connected with a transmission rod, the surface of the transmission rod is fixedly connected with a pinion, the top of the pinion is in meshed connection with a large gear, the inner cavity of the large gear is fixedly connected with an adjusting rod, and the left side of the adjusting rod penetrates through the inner cavity of a quantitative tube and is fixedly connected with a ball valve.
As the preferable mode of the utility model, the surface of the motor is sleeved with a positioning ring, and the left side of the positioning ring is fixedly connected with the control shell.
As preferable in the utility model, the right side of the adjusting rod penetrates to the right side of the control shell and is movably connected with a bearing seat, and the left side of the bearing seat is fixedly connected with the control shell.
Preferably, the surface of the rotating speed controller is provided with a protective shell, and the right side of the protective shell is fixedly connected with the inner wall of the control shell.
Preferably, the left side of the surface of the flow velocity detector is sleeved with a sealing reinforcement ring, and the left side of the sealing reinforcement ring is fixedly connected with the inner wall of the control shell.
As preferable in the utility model, the front side and the rear side of the top of the control shell are fixedly connected with connecting plates, and the left side of each connecting plate is fixedly connected with the quantitative tube.
Compared with the prior art, the utility model has the following beneficial effects:
1. according to the utility model, through the matched use of the large mixer body, the supporting legs, the discharging pipe, the metering pipe, the control shell, the driving assembly, the discharging pipe, the ball valve, the rotating speed controller and the flow speed detector, the problems that the conventional mixing device needs to manually control the adding amount, consumes manpower and is inaccurate in filling amount when the concrete transfer truck is filled with concrete are solved.
2. According to the utility model, through the matched use of the motor, the transmission rod, the pinion, the large gear and the adjusting rod, when the large mixer body is used for filling concrete into the concrete transfer vehicle, the motor is firstly opened, the output end of the motor drives the pinion to be meshed with the large gear through the transmission rod, then the large gear drives the ball valve to rotate ninety degrees through the adjusting rod when rotating, so that the leak hole of the ball valve is upward, the interior of the metering tube is not blocked, concrete enters the interior of the metering tube through the discharging tube, at the moment, the flow velocity detector in the metering tube detects the flow velocity of the concrete during discharging and calculates the time length after filling, then the flow velocity detector drives the rotation speed controller to be opened, then the motor is opened and rotates reversely, at the moment, the rotation speed controller controls the rotation speed of the motor, and the rotation speed of the large gear is not fast when the pinion and the large gear are driven by the adjusting rod to be closed, the ball valve is also completely closed when the concrete is to be filled, so that the quantitative adding and controlling effects are achieved, the bearing seat is fixedly connected with the control shell, and the positioning device is fixedly connected with the control shell through the positioning device.
3. According to the utility model, the protection shell is fixedly connected with the inner wall of the control shell, so that the protection effect on the rotating speed controller is achieved, the sealing reinforcement ring is fixedly connected with the inner wall of the control shell, the effect of positioning and sealing the flow speed detector is achieved, and the connection plate is fixedly connected with the outer surface of the metering tube, so that the reinforcement effect on the control shell is achieved.
Drawings
FIG. 1 is a schematic diagram of a structure provided by an embodiment of the present utility model;
FIG. 2 is a schematic view of a partial structure provided by an embodiment of the present utility model;
fig. 3 is a schematic structural diagram of the internal components of the control housing and the driving components according to the embodiment of the present utility model.
In the figure: 1. a large mixer body; 2. a support leg; 3. a discharge pipe; 4. a metering tube; 5. a control housing; 6. a drive assembly; 601. a motor; 602. a transmission rod; 603. a pinion gear; 604. a large gear; 605. an adjusting rod; 606. a positioning ring; 607. a bearing seat; 7. discharging pipes; 8. a ball valve; 9. a rotational speed controller; 10. a flow rate detector; 11. a protective shell; 12. sealing and reinforcing rings; 13. and (5) connecting a plate.
Detailed Description
For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.
The structure of the present utility model will be described in detail with reference to the accompanying drawings.
As shown in fig. 1 to 3, the stirring device of the slurry transfer station provided by the embodiment of the utility model comprises a large-scale stirrer body 1, four supporting legs 2 are arranged at the bottom of the large-scale stirrer body 1, a discharging pipe 3 is communicated with the bottom of the large-scale stirrer body 1, a quantifying pipe 4 is communicated with the bottom of the discharging pipe 3 through a flange plate, a control shell 5 is fixedly connected to the right side of the quantifying pipe 4, a driving component 6 is fixedly connected to the right side of the control shell 5, a discharging pipe 7 is communicated with the bottom of the quantifying pipe, a hose is communicated with the bottom of the discharging pipe 7, a ball valve 8 is arranged in an inner cavity of the control shell 5, the left side of the ball valve 8 is fixedly connected with the quantifying pipe 4 through a shaft pin, a rotating speed controller 9 is fixedly connected to the bottom of the right side of the inner cavity of the control shell 5, a flow speed detector 10 is fixedly connected with the bottom of the left side of the inner cavity of the control shell 5, and a detection end of the flow speed detector 10 penetrates into the quantifying pipe 4.
Referring to fig. 2 and 3, the driving assembly 6 includes a motor 601, the motor 601 is electrically connected with a rotation speed controller 9, the left side of the motor 601 is fixedly connected with a control shell 5, the output end of the motor 601 penetrates through an inner cavity of the control shell 5 and is fixedly connected with a transmission rod 602, a pinion 603 is fixedly connected to the surface of the transmission rod 602, a large gear 604 is connected to the top of the pinion 603 in a meshed manner, an adjusting rod 605 is fixedly connected to the inner cavity of the large gear 604, the left side of the adjusting rod 605 penetrates through the inner cavity of a quantitative tube 4 and is fixedly connected with a ball valve 8, a positioning ring 606 is sleeved on the surface of the motor 601, the left side of the positioning ring 606 is fixedly connected with the control shell 5, the right side of the adjusting rod 605 penetrates through the right side of the control shell 5 and is movably connected with a bearing seat 607, and the left side of the bearing seat 607 is fixedly connected with the control shell 5.
The scheme is adopted: through setting up motor 601, transfer line 602, pinion 603, gear wheel 604 and regulation pole 605's cooperation is used, when large mixer body 1 is filling the concrete to the concrete transfer car (buggy), at first motor 601 opens, this moment the output of motor 601 will drive pinion 603 and gear wheel 604 through transfer line 602 and mesh, then gear wheel 604 will drive ball valve 8 through regulation pole 605 and rotate ninety degrees when rotatory, make the leak hole of ball valve 8 upwards, no longer block up the inside of ration pipe 4, then the concrete will enter the inside of ration pipe 4 through discharging pipe 3, this moment the inside velocity of flow detector 10 of ration pipe 4 will detect the concrete velocity of flow when unloading and calculate the duration that finishes, velocity of flow detector 10 will drive rotational speed controller 9 and open, then motor 601 opens and carries out the counter-rotating, this moment rotational speed controller 9 will control the rotational speed of motor 601, the rotational speed of gear wheel 604 and not be fast when pinion 603 and gear wheel 604 are meshed, therefore, will slowly drive ball valve 8 through regulation pole 605 and close, when the concrete will fill, thereby the ball valve 8 will close, thereby also reach the fixed position and control ring 607, thereby the fixed position is connected with fixed position and fixed shell 5, the fixed position is reached through setting up and is reached, the fixed position control ring 606, and fixed connection is accomplished through setting up the control housing 606, 5.
Referring to fig. 2 and 3, the surface of the rotational speed controller 9 is provided with a protecting shell 11, the right side of the protecting shell 11 is fixedly connected with the inner wall of the control shell 5, the left side of the surface of the flow velocity detector 10 is sleeved with a sealing reinforcing ring 12, the left side of the sealing reinforcing ring 12 is fixedly connected with the inner wall of the control shell 5, the front side and the rear side of the top of the control shell 5 are fixedly connected with a connecting plate 13, and the left side of the connecting plate 13 is fixedly connected with the quantitative tube 4.
The scheme is adopted: through setting up the protecting crust 11, the protecting crust 11 has played the guard action to rotational speed controller 9 with the inner wall fixed connection of control shell 5, through setting up sealed stiffening ring 12, sealed stiffening ring 12 and the inner wall fixed connection of control shell 5 have played the effect that fixes a position and seal flow velocity detector 10, through setting up connecting plate 13, connecting plate 13 and the surface fixed connection of ration pipe 4 have played the reinforcement effect to control shell 5.
The working principle of the utility model is as follows:
when the large mixer body 1 is used for filling concrete into a concrete transfer vehicle, firstly, the motor 601 is turned on, at this time, the output end of the motor 601 drives the pinion 603 to be meshed with the bull gear 604 through the transmission rod 602, then the bull gear 604 drives the ball valve 8 to rotate ninety degrees through the adjusting rod 605 when rotating, so that the leak hole of the ball valve 8 is upward, the inside of the quantitative tube 4 is not blocked, then the concrete enters the inside of the quantitative tube 4 through the discharging tube 3, at this time, the flow rate detector 10 in the quantitative tube 4 detects the flow rate of the concrete during discharging and calculates the time length after filling, then the flow rate detector 10 drives the rotation speed controller 9 to be turned on, then the motor 601 is turned on and rotates reversely, at this time, the rotation speed controller 9 controls the rotation speed of the motor 601, and the rotation speed of the bull gear 604 is not fast when the pinion 603 is meshed with the bull gear 604, therefore, the ball valve 8 is slowly driven to be closed through the adjusting rod 605, the ball valve 8 is completely closed when the concrete is about to be filled, the concrete is required to be filled, the concrete is accurately filled into the concrete transfer vehicle, and the manual filling and the concrete transfer device is not required to be accurately controlled.
To sum up: this agitating unit of thick liquids transfer station through setting up large-scale mixer body 1, landing leg 2, discharging pipe 3, quantitative pipe 4, control shell 5, drive assembly 6, unloading pipe 7, ball valve 8, rotational speed controller 9 and the cooperation of flow rate detector 10 and use, has solved current agitating unit and need manual control additive amount, expend manpower and the inaccurate problem of volume of packing when filling the concrete transfer car (buggy).
Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.