CN211306853U

CN211306853U - Concrete mixer feed arrangement

Info

Publication number: CN211306853U
Application number: CN201920710737.0U
Authority: CN
Inventors: 邱振业; 邓旭华; 卢水良; 江杰云; 钟国锋; 彭瑞鸿; 王芳利; 唐林洋
Original assignee: Guangdong Based New Century Concrete Co ltd; Guangdong Foundation Xincheng Concrete Co ltd
Current assignee: Guangdong Based New Century Concrete Co ltd; Guangdong Foundation Xincheng Concrete Co ltd
Priority date: 2019-05-17
Filing date: 2019-05-17
Publication date: 2020-08-21
Anticipated expiration: 2029-05-17

Abstract

The utility model provides a concrete mixer, which comprises a control panel, a mixing mechanism, a feeding mechanism, a water supply mechanism, a blanking mechanism and a pollution discharge mechanism, the feeding mechanism is arranged above the stirring mechanism, the water supply mechanism is arranged at one side of the stirring mechanism, the blanking mechanism is arranged below the stirring mechanism, the sewage draining mechanism is arranged at the other side of the stirring mechanism, the control panel is respectively and electrically connected with the stirring mechanism, the feeding mechanism, the water supply mechanism, the blanking mechanism and the sewage draining mechanism, the blanking mechanism comprises a blanking pipe, a blanking valve, a funnel, a sliding stop lever and a sliding cylinder, the device performs double control on concrete blanking, the blanking valve performs first heavy blanking control, the quick unloading of effective control concrete, the second is carried out to slip shelves pole and slip cylinder, waste when can effectively preventing the concrete unloading.

Description

Concrete mixer feed arrangement

Technical Field

The utility model relates to an automatic production field, concretely relates to concrete mixer feed arrangement.

Background

Concrete is a general term for engineering composite materials formed by cementing aggregate into a whole by using cementing materials. The concrete is cement concrete prepared with cement as cementing material and water in certain proportion and through mixing and stirring, and is widely used in civil engineering. Feeding refers to the operation of removing a certain shape, quantity or quality of material from the whole or whole batch of material after determining the shape, quantity or quality of the material required for manufacturing a certain device or product, and feeding operation is also required in the process of concrete production. The existing concrete feeding device is lack of quality control of raw materials, so that the concrete mixing proportion is not correct, and the quality of produced concrete is poor.

SUMMERY OF THE UTILITY MODEL

The not enough to prior art, the utility model discloses a weighing sensor carries out strict control to the quality of raw materials, carries out automatic feeding through the cylinder to it and handles, has guaranteed the accuracy of concrete ratio, has further ensured the quality of concrete, and through the dual control of unloading, but the effective control concrete discharge amount and prevent that the concrete from leaking extravagantly simultaneously.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a concrete mixer feed arrangement, includes control panel, rabbling mechanism, feed mechanism, water supply mechanism, unloading mechanism and blowdown mechanism, feed mechanism installs in the rabbling mechanism top, water supply mechanism installs in rabbling mechanism one side, unloading mechanism sets up in the rabbling mechanism below, blowdown mechanism sets up in the rabbling mechanism opposite side, control panel is connected with rabbling mechanism, feed mechanism, water supply mechanism, unloading mechanism and blowdown mechanism electricity respectively, its characterized in that, unloading mechanism includes unloading pipe, unloading valve, funnel, slip shelves pole and slip cylinder, the unloading pipe is connected with the rabbling mechanism, the unloading valve is installed on the unloading pipe, the funnel is connected with the unloading pipe, slip shelves pole is installed at the funnel bottom to one side, the slip cylinder is connected with slip shelves pole.

In the technical scheme, the concrete after being stirred by the stirring mechanism is discharged through the discharging pipe, the discharging valve is controlled to be opened and closed during the discharge of the concrete, the rapid discharging of the concrete is realized, the concrete enters the hopper through the discharging pipe to slow down the discharge, the sliding air cylinder is used for controlling the up-and-down oblique sliding of the sliding stop lever, the current discharge amount of the concrete can be controlled, the maximum amount of the concrete is discharged when the sliding stop lever slides to the most oblique upper part, and the concrete is in a zero discharge state when the sliding stop lever slides to the most oblique lower part.

Further, the feeding mechanism comprises a first feeding hopper, a second feeding hopper, a first feeding pipe and a second feeding pipe, the first feeding hopper is connected with the first feeding pipe and is arranged on one side above the stirring box, the second feeding hopper is connected with the second feeding pipe and is arranged on the other side above the stirring box, the feeding mechanism further comprises a first baffle plate, a first weighing sensor, a first telescopic rod, a first clamping block, a first cylinder, a second baffle plate, a second weighing sensor, a second telescopic rod, a second clamping block and a second cylinder, the first baffle plate is arranged between the first feeding hopper and the first feeding pipe, the first weighing sensor is arranged below the first baffle plate, the first telescopic rod is connected with the first baffle plate and the side wall of the first feeding pipe, the first clamping block is arranged on the first telescopic rod, the first cylinder is connected with the first telescopic rod, the second baffle plate is arranged between the second feeding hopper and the second feeding pipe, the second weighing sensor is installed below the second baffle, the second telescopic link is connected with the second baffle and the side wall of the second feeding pipe, the second clamping block is installed on the second telescopic link, and the second cylinder is connected with the second telescopic link.

In the technical scheme, after cement enters a first feeding hopper, a first weighing sensor can detect the quality, when the detection reaches a set value, a first air cylinder can control a first telescopic rod to contract, one end of a first baffle is movably hinged with the first feeding hopper, the first baffle is changed from a parallel state to an inclined state, the cement in the first feeding hopper enters a first feeding pipe and then enters a stirring box, and a first clamping block on the first telescopic rod prevents the first baffle from excessively damaging the first weighing sensor due to the inclination; in the same way, aggregate enters into the second feeder hopper after, the second weighing sensor can carry out the detection of quality, when detecting and reaching the setting value, the second cylinder can control the shrink of second telescopic link, second baffle one end is articulated for the activity with the second feeder hopper, the second baffle becomes the tilt state by parallel state, cement in the second feeder hopper gets into the second inlet pipe and then gets into the agitator tank, second fixture block on the second telescopic link prevents that the second baffle from inclining and excessively damaging second weighing sensor, the rabbling mechanism is to cement, aggregate and water stir, concrete after the stirring is accomplished gets into unloading mechanism, the agitator tank after the work is accomplished washs through water supply mechanism, sewage after the washing enters into sewage discharging mechanism, control panel real-time control each operating condition of mechanism.

Furthermore, the blanking mechanism comprises a blanking pipe and a storage box, the blanking pipe is connected with the storage box and the stirring box, and a blanking valve is further arranged on the blanking pipe.

In the technical scheme, the concrete after being stirred enters the storage box through the blanking pipe to be stored for use, the blanking valve controls the discharge of the concrete in the blanking pipe, and the effective control of the concrete amount can be realized in a full state in the storage box.

Further, the sewage draining mechanism comprises a sewage draining pipe and a sewage collecting box, the sewage draining pipe is connected with the sewage collecting box and the stirring box, and a sewage valve is further arranged on the sewage draining pipe.

In the technical scheme, the cleaned sewage enters the sewage collecting box through the sewage discharge pipe, and the sewage valve on the sewage discharge pipe effectively controls the discharge of the sewage, so that the sewage in the sewage collecting box is prevented from overflowing.

Further, rabbling mechanism includes agitator tank, agitator motor, rotation axis, crossbeam, (mixing) shaft and stirring piece, agitator motor passes through the rotation axis and is connected with the crossbeam and install inside the agitator tank, (mixing) shaft welding is in the crossbeam below, the stirring piece welding is on the (mixing) shaft.

In the technical scheme, after cement, aggregate and water enter the stirring box, the stirring motor in the stirring box operates to drive the rotating shaft to rotate so as to drive the cross beam and the stirring shaft and the stirring sheet which are welded below the cross beam to rotate so as to fully stir the cement, the aggregate and the water.

Furthermore, the stirring shaft is provided with 2-4 stirring blades which are arranged on the stirring shaft in a staggered manner.

In the technical scheme, the stirring shaft is more than one, so that cement, aggregate and water are fully stirred in the stirring box, and mutual collision among the stirring sheets is avoided.

Further, the water supply mechanism comprises a water storage tank, a water suction pump, a water outlet pipe, a water supply pipe and a cleaning pipe, wherein the water outlet pipe is connected with the water suction pump, the water suction pump is arranged in the water storage tank, and the water supply pipe and the cleaning pipe are respectively connected with the water outlet pipe.

In the technical scheme, the water supply mechanism supplies clean water to the stirring mechanism through the water supply pipe, and the stirring mechanism after working is cleaned through the cleaning pipe.

Furthermore, a water supply valve is arranged on the water supply pipe.

In the technical scheme, the water supply valve controls the water quantity of the clean water entering the stirring tank.

Furthermore, a cleaning valve is arranged on the cleaning pipe.

In the technical scheme, the cleaning valve controls the amount of water for cleaning the stirring tank by clean water.

The utility model provides a pair of concrete mixer feed arrangement's beneficial effect lies in: the full-automatic production of concrete mixing is realized, the efficiency is obviously improved compared with the manual mixing, the mixture ratio of cement, aggregate and water is more strictly controlled, the quality of concrete is greatly guaranteed, and the cleaning function after work is provided, so that the trouble of manual cleaning is avoided, and the cleanness of the stirring box is ensured; in addition, more effective control is realized on the concrete blanking, the uncontrollable condition of the concrete during the blanking is effectively avoided, and the concrete blanking is automatically and accurately controlled.

Drawings

Fig. 1 is a schematic structural view of the blanking mechanism of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

fig. 3 is the structural schematic diagram of the feeding mechanism of the present invention.

In the figure: 1. a stirring box; 2. a stirring shaft; 3. a cross beam; 4. a rotating shaft; 5. a first feed tube; 6. a first feed hopper; 7. a stirring motor; 8. a second feed hopper; 9. a second feed tube; 10. a water supply pipe; 11. a water supply valve; 12. cleaning the tube; 13. cleaning the valve; 14. a water outlet pipe; 15. a control panel; 16. a water storage tank; 17. A water pump; 18. a material storage box; 19. a sewage collecting tank; 20. a blow-off pipe; 21. a sewage valve; 22. a stirring sheet; 23. a discharging pipe; 24. a discharge valve; 25. a first baffle plate; 26. a first telescopic rod; 27. a first weighing sensor; 28. a first clamping block; 29. a first cylinder; 30. a second baffle; 31. a second load cell; 32. A second fixture block; 33. a second telescopic rod; 34. a second cylinder; 35. a funnel; 36. a slide bar; 37. and a sliding cylinder.

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. All other embodiments obtained by a person skilled in the art without any inventive step are within the scope of the present invention.

Example (b): a feeding device of a concrete mixer.

A concrete mixer feeding device comprises a control panel 15, a stirring mechanism, a feeding mechanism, a water supply mechanism, a blanking mechanism and a sewage discharge mechanism, and is characterized in that the stirring mechanism comprises a stirring box 1, a stirring motor 7, a rotating shaft 4, a beam 3, a stirring shaft 2 and a stirring sheet 22, the stirring motor 7 is connected with the beam 3 through the rotating shaft 4 and is installed inside the stirring box 1, the stirring shaft 2 is welded below the beam 3, the stirring sheet 22 is welded on the stirring shaft 2, the feeding mechanism is installed above the stirring box 1, the blanking mechanism comprises a blanking pipe 23, a blanking valve 24, a funnel 35, a sliding stop rod 36 and a sliding cylinder 37, the blanking pipe 23 is connected with the stirring mechanism, the blanking valve 24 is installed on the blanking pipe 23, the funnel 35 is connected with the blanking pipe 23, the sliding stop rod 36 is obliquely installed at the bottom of the funnel 35, the sliding cylinder 37 is connected with the sliding stopper rod 36, the feeding mechanism comprises a first feeding hopper 6, a second feeding hopper 8, a first feeding pipe 5 and a second feeding pipe 9, the first feeding hopper 6 is connected with the first feeding pipe 5 and is installed on one side above the stirring box 1, the second feeding hopper 8 is connected with the second feeding pipe 9 and is installed on the other side above the stirring box 1, the feeding mechanism further comprises a first baffle plate 25, a first weighing sensor 27, a first telescopic rod 26, a first clamping block 28, a first cylinder 29, a second baffle plate 30, a second weighing sensor 31, a second telescopic rod 33, a second clamping block 32 and a second cylinder 34, the first baffle plate 25 is arranged between the first feeding hopper 6 and the first feeding pipe 5, the first weighing sensor 27 is installed below the first baffle plate 25, the first telescopic rod 26 is connected with the first baffle plate 25 and the side wall of the first feeding pipe 5, the first clamping block 28 is installed on the first telescopic rod 26, the first cylinder 29 is connected with the first telescopic rod 26, the second baffle 30 is arranged between the second feed hopper 8 and the second feed pipe 9, the second weighing sensor 31 is installed below the second baffle 30, the second telescopic rod 33 is connected with the second baffle 30 and the side wall of the second feed pipe 9, the second clamping block 32 is installed on the second telescopic rod 33, the second cylinder 34 is connected with the second telescopic rod 33, the water supply mechanism is installed on one side of the stirring mechanism and comprises a water storage tank 16, a water suction pump 17, a water outlet pipe 14, a water supply pipe 10 and a cleaning pipe 12, the water outlet pipe 14 is connected with the water suction pump 17, the water suction pump 17 is arranged in the water storage tank 16, the water supply pipe 10 and the cleaning pipe 12 are respectively connected with the water outlet pipe 14, the water supply pipe 10 is provided with a cleaning valve 13 on the cleaning pipe 12 of the water supply valve 11, the blanking mechanism is arranged below the stirring, the blanking mechanism comprises a blanking pipe 23 and a storage box 18, the blanking pipe 23 is connected with the storage box 18 and the stirring box 1, a blanking valve 24 is further arranged on the blanking pipe 23, the blow-down mechanism is arranged on the other side of the stirring mechanism, the blow-down mechanism comprises a blow-off pipe 20 and a sewage collecting box 19, the blow-off pipe 20 is connected with the sewage collecting box 19 and the stirring box 1, a sewage valve 21 is further arranged on the blow-off pipe 20, and the control panel 15 is respectively electrically connected with the stirring mechanism, the feeding mechanism, the water supply mechanism, the blanking mechanism and the blow-down mechanism.

In this embodiment, after cement enters the first feeding hopper 6, the first weighing sensor 27 performs quality detection, when the detection reaches a set value, the first cylinder 29 controls the first telescopic rod 26 to contract, one end of the first baffle 25 is movably hinged with the first feeding hopper 6, the first baffle 25 changes from a parallel state to an inclined state, the cement in the first feeding hopper 6 enters the first feeding pipe 5 and then enters the stirring box 1, and the first fixture block 28 on the first telescopic rod 26 prevents the first baffle 25 from excessively damaging the first weighing sensor 27 due to the inclination; similarly, after the aggregate enters the second feeding hopper 8, the second weighing sensor 31 can detect the mass, when the detection reaches a set value, the second air cylinder 34 can control the second telescopic rod 33 to contract, one end of the second baffle 30 is movably hinged with the second feeding hopper 8, the second baffle 30 is changed from a parallel state to an inclined state, the cement in the second feeding hopper 8 enters the second feeding pipe 9 and then enters the stirring box 1, and the second fixture block 32 on the second telescopic rod 33 prevents the second baffle 30 from excessively damaging the second weighing sensor 31 due to the inclination; clear water enters a water outlet pipe 14 from a water storage tank 16 through a water suction pump 17 and then enters the stirring tank 1 through a water supply pipe 10, a water supply valve 11 controls the water quantity of the clear water entering the stirring tank 1, and the quality of concrete can be ensured by regulating and controlling the proportion of cement, aggregate and water; a stirring motor 7 in the stirring box 1 operates to drive a rotating shaft 4 to rotate so as to drive a cross beam 3, a stirring shaft 2 and a stirring sheet 22 which are welded below the cross beam 3 to rotate so as to fully stir cement, aggregate and water, the stirred concrete enters a blanking mechanism, a blanking valve 24 is controlled to be opened and closed during the discharge of the concrete, the rapid blanking of the concrete is realized, the concrete enters a hopper 35 through a blanking pipe 23 to be slowly discharged, and a sliding cylinder 37 is used for controlling the up-and-down oblique sliding of a sliding stop lever 36, the discharge amount of the current concrete can be controlled, when the sliding stop lever 36 slides to the most oblique upper side, the maximum amount of the concrete is discharged, when the sliding stop lever 36 slides to the most oblique lower side, the concrete is in a zero discharge state, the stirring box 1 after the work is finished is cleaned through the cleaning pipe 12, the cleaned sewage enters the sewage discharge mechanism, and the control panel 15 controls the working state of each mechanism in real time.

Stirring shaft 2 is provided with four, crisscross installation between the stirring piece 22 that sets up on the stirring shaft 2, welded stirring piece 22 shape is the square on the first (mixing) shaft, welded stirring piece 22 shape is tiny cuboid on the second (mixing) shaft, welded stirring piece 22 shape is the semiellipsoid on the third (mixing) shaft, welded stirring piece 22 shape is the pyramid on the fourth (mixing) shaft, stir it through the stirring piece 22 of four kinds of not equidimension shapes, can guarantee that the homogeneity of stirring is higher, stirring piece 22 on first (mixing) shaft and the third (mixing) shaft can stir coarse aggregate and break, second (mixing) shaft and fourth (mixing) shaft can stir fine aggregate and break, make it break more thoroughly, it is simple quick more in follow-up stirring fuses.

The above description is a preferred embodiment of the present invention, but the present invention should not be limited to the disclosure of the embodiment and the accompanying drawings, and therefore, all equivalents and modifications that can be accomplished without departing from the spirit of the present invention are within the protection scope of the present invention.

Claims

1. The utility model provides a concrete mixer feed arrangement, includes control panel, rabbling mechanism, feed mechanism, water supply mechanism, unloading mechanism and blowdown mechanism, feed mechanism installs in the rabbling mechanism top, water supply mechanism installs in rabbling mechanism one side, unloading mechanism sets up in the rabbling mechanism below, blowdown mechanism sets up in the rabbling mechanism opposite side, control panel is connected with rabbling mechanism, feed mechanism, water supply mechanism, unloading mechanism and blowdown mechanism electricity respectively, its characterized in that, unloading mechanism includes unloading pipe, unloading valve, funnel, slip shelves pole and slip cylinder, the unloading pipe is connected with the rabbling mechanism, the unloading valve is installed on the unloading pipe, the funnel is connected with the unloading pipe, slip shelves pole is installed at the funnel bottom to one side, the slip cylinder is connected with slip shelves pole.

2. The concrete mixer feeder of claim 1, wherein: the feeding mechanism comprises a first feeding hopper, a second feeding hopper, a first feeding pipe and a second feeding pipe, the first feeding hopper is connected with the first feeding pipe and is arranged on one side above the stirring box, the second feeding hopper is connected with the second feeding pipe and is arranged on the other side above the stirring box, the feeding mechanism further comprises a first baffle plate, a first weighing sensor, a first telescopic rod, a first clamping block, a first air cylinder, a second baffle plate, a second weighing sensor, a second telescopic rod, a second clamping block and a second air cylinder, the first baffle plate is arranged between the first feeding hopper and the first feeding pipe, the first weighing sensor is arranged below the first baffle plate, the first telescopic rod is connected with the first baffle plate and the side wall of the first feeding pipe, the first clamping block is arranged on the first telescopic rod, the first air cylinder is connected with the first telescopic rod, the second baffle plate is arranged between the second feeding hopper and the second feeding pipe, the second weighing sensor is installed below the second baffle, the second telescopic link is connected with the second baffle and the side wall of the second feeding pipe, the second clamping block is installed on the second telescopic link, and the second cylinder is connected with the second telescopic link.

3. The concrete mixer feeder of claim 1, wherein: the blanking mechanism comprises a blanking pipe and a storage box, the blanking pipe is connected with the storage box and the stirring box, and a blanking valve is further arranged on the blanking pipe.

4. The concrete mixer feeder of claim 1, wherein: the sewage draining mechanism comprises a sewage draining pipe and a sewage collecting box, the sewage draining pipe is connected with the sewage collecting box and the stirring box, and a sewage valve is further arranged on the sewage draining pipe.

5. The concrete mixer feeder of claim 1, wherein: the stirring mechanism comprises a stirring box, a stirring motor, a rotating shaft, a cross beam, a stirring shaft and stirring pieces, wherein the stirring motor is connected with the cross beam through the rotating shaft and is installed inside the stirring box, the stirring shaft is welded below the cross beam, and the stirring pieces are welded on the stirring shaft.

6. The concrete mixer feeder of claim 5, wherein: the stirring shaft is provided with 2-4 stirring blades which are arranged on the stirring shaft in a staggered way.

7. The concrete mixer feeder of claim 1, wherein: the water supply mechanism comprises a water storage tank, a water suction pump, a water outlet pipe, a water supply pipe and a cleaning pipe, wherein the water outlet pipe is connected with the water suction pump, the water suction pump is arranged in the water storage tank, and the water supply pipe and the cleaning pipe are respectively connected with the water outlet pipe.

8. The concrete mixer feeder of claim 7, wherein: and a water supply valve is arranged on the water supply pipe.

9. The concrete mixer feeder of claim 7, wherein: and a cleaning valve is arranged on the cleaning pipe.