CN115139412A

CN115139412A - Concrete mixing mechanism for pile foundation construction

Info

Publication number: CN115139412A
Application number: CN202210909403.2A
Authority: CN
Inventors: 宋坦冉; 杨曙娟; 孟龙龙; 张超; 王瑞岭; 王光明; 姜松朴; 刘泽华
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-07-29
Filing date: 2022-07-29
Publication date: 2022-10-04
Anticipated expiration: 2042-07-29
Also published as: CN115139412B

Abstract

The invention provides a concrete stirring mechanism for pile foundation construction, which not only solves the problem of on-site concrete mixing, but also avoids the phenomena of caking of various materials and uneven mixing in the mixing process, and simultaneously can stir spiral blades to prevent local materials from adhering.

Description

Concrete mixing mechanism for pile foundation construction

Technical Field

The invention relates to a concrete processing mechanism, in particular to a concrete stirring mechanism for pile foundation construction.

Background

The most common condition of pile foundation construction is to pour a large amount of concrete in the pile foundation, wherein if the concrete is completely transported by the outside, the best pouring time of the concrete is within a certain time after mixing, and the best pouring time is usually missed due to traffic jam or improper transportation time or indefinite construction period in the outside transportation, so the best pouring mode is to mix on site, if the concrete amount required at one time is large, a plurality of mixing machines can work together or can be temporarily stored for pouring together.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the concrete stirring mechanism for pile foundation construction, which not only solves the problem of concrete field mixing, but also avoids the phenomena of caking of various materials and uneven mixing in the mixing process, and simultaneously can stir the connecting part of the spiral fan blade and the stirring tank in the mixing process, thereby preventing local material adhesion, cleaning the inner side wall of the stirring tank and preventing adhesion between the material and the tank body in the using process.

The technical scheme of its solution is, including the automobile body, a serial communication port, the automobile body lower extreme is equipped with a plurality of supporting wheels, the automobile body upper end is connected with the agitator tank through the supporting wheel, be equipped with stirring vane in the agitator tank, stirring vane is located the agitator tank and is the multistage formula structure, the flabellum is along agitator tank axis circumference equipartition in the agitator tank, the agitator tank left end is equipped with the annular feed inlet that stretches out towards the outside, fixedly connected with feeding mechanism on the automobile body in the feed inlet outside, feeding mechanism stretch into the agitator tank and be connected with coaxial rotation between the agitator tank, feeding mechanism includes the carriage, be equipped with the conveyer belt in the carriage, the feed frame outside is equipped with down the hopper, the vertical sliding connection in hopper discharge gate position has through motor drive's ration play flitch down, be equipped with in the feed frame and be used for setting for the mechanism that the position unloading is carried out to the material on the conveyer belt, feed frame upper end still is equipped with the clearance mechanism that is used for clearing up the side in the agitator tank.

Preferably, the feeding mechanism comprises a conveying frame which is rotatably connected in the stirring tank, an arched protection plate is arranged on the conveying frame, the conveying frame is internally divided into a first cavity and a second cavity, a water conveying pipe is arranged between the two cavities, a plurality of water outlets are formed in the lower end of the water conveying pipe, conveying belts are respectively arranged in the two cavities, the conveying belts are arc belts with two high ends and a low middle part, and driving rods which are used for driving the arc belts and are matched with the arc belts are respectively rotatably connected to the left end and the right end of the conveying frame.

Preferably, the distribution mechanism comprises a distribution plate fixedly connected in the conveying frame and located on the arched protection plate, the distribution plate extends downwards, the lower end of the distribution plate is matched with the conveying belt, the distribution plate is divided into a left distribution plate and a right distribution plate, the left end of the left distribution plate is located at the middle of the conveying belt, the right end of the left distribution plate is located at the outer side of the conveying belt, the left end of the right distribution plate is located at the inner side of the conveying belt, the right end of the right distribution plate is located at the outer side of the conveying belt, and distribution openings in vertical arrangement are formed in the outer side of the conveying frame respectively.

Preferably, the cleaning mechanism comprises a plurality of supporting plates which are fixedly connected to the conveying frame and are arranged in a diagonal manner, the upper ends of the supporting plates are respectively provided with a guide groove which is arranged in a transverse manner, a moving part is connected to the inner side of each guide groove in a transverse sliding manner, a cleaning brush is connected to each moving part through an elastic telescopic rod, a guide plate which is used for guiding materials is fixedly connected to each cleaning rod, and the guide plate is arranged in a diagonal manner.

The invention has the beneficial effects that: 1. the problem of concrete on-site mixing is solved;

2. the problems of caking of various materials and uneven mixing in the mixing process are solved;

3. meanwhile, the connecting part of the spiral fan blade and the stirring tank in the mixing process can be stirred;

4. carry out material cleaning to the inside wall of agitator tank when preventing local material adhesion, prevent the adhesion between material and the jar body in the use.

Drawings

FIG. 1 is an overall schematic view of the present invention.

FIG. 2 is a second perspective view of the present invention.

FIG. 3 is a schematic view of the internal mechanism of the agitator tank of the present invention.

FIG. 4 is a second perspective view of the internal structure of the stirring tank of the present invention.

Fig. 5 is a schematic diagram of the dispensing mechanism of the present invention.

Fig. 6 is a second perspective of the dispensing mechanism of the present invention.

Fig. 7 is a partially enlarged view of the second viewing angle of the dispensing mechanism of the present invention.

FIG. 8 is a schematic view of the structure of the discharge hopper of the present invention.

FIG. 9 is a partially enlarged view of the structure of the lower hopper of the present invention.

FIG. 10 is a cross-sectional view of a blender jar in accordance with the present invention.

Fig. 11 is a schematic diagram of the quantitative discharging plate adjustment of the present invention.

FIG. 12 is an enlarged view of a portion of the metering blade of the present invention.

Reference numerals

1. A vehicle body; 2. a support wheel; 3. a stirring tank; 4. a stirring fan blade; 5. a feed inlet; 6. a conveying frame; 7. a conveyor belt; 8. feeding a hopper; 9. a quantitative discharging plate; 10. a protection plate; 11. a first cavity; 12. a second cavity; 13. a water delivery pipe; 14. a water discharge port; 15. a drive rod; 16. a dial-up plate; 17. a distributing port; 18. a support plate; 19. a guide groove; 20. a moving member; 21. cleaning a brush; 22. a plugging plate; 23. a wheel; 24. a traction ring.

Detailed Description

The following description of the embodiments of the present invention will be made in detail with reference to the accompanying drawings 1 to 12.

When the concrete pouring device is used, the area needing to be poured on site is determined firstly, the pouring area is often located at a construction site, so that the vehicle body 1 is detachable and independent, the transportation is convenient when the concrete pouring device is transported to a construction site, the transportation is convenient in a form of traction or dragging and the like, the aim of convenient transportation is fulfilled, the proportioning of various materials of the required concrete is determined firstly after the concrete is transported to the construction site, whether the concrete is a basic structure formed by mixing cement and aggregate or whether a plurality of materials are proportioned together is fulfilled, the adopted materials are classified and loaded during the mixing, various basic materials can be conveyed into the corresponding lower hopper 8 by adopting a conveyor or a manual conveying mode to be stored in advance, and the materials are not stored in the lower hopper 8 optimally during the transportation process, on one hand, materials stored in the lower hoppers 8 in advance cannot be flexibly and temporarily allocated according to the construction site environment, on the other hand, the materials stored in the lower hoppers 8 are limited, cannot be stored in large batch, and meanwhile, the leakage phenomenon is easy to occur, so the temporary filling is preferably carried out, when the lower hoppers 8 are filled, cement is filled in one of the lower hoppers 8, materials such as sand and stone and the like are filled in the other lower hopper 8, if the sand and stone are multiple, the materials can be mixed and then filled together, or different materials are controlled by adopting a plurality of different lower hoppers 8, after the materials are filled, the material output speed is controlled by adjusting the quantitative discharging plates 9 at the outlet positions of the lower ends of the lower hoppers 8, because the materials have friction force, and the lower hoppers 8 are conical, wherein the outlet positions of the materials are positioned at the lower ends, and the lower ends are blocked by the conveying belts 7, the materials cannot move downwards but are blocked under the action of gravity, after quantitative discharging plate 9 is opened, because the frictional force of material leads to the material can not flow with the reason of structure itself equally, even flow also is limited partly, and in the in-process of transportation, the material that lies in hopper 8 lower extreme removes owing to being driven by conveyer belt 7, thereby the region moved is filled to the material in lower hopper 8 can the downstream, thereby realize carrying the problem of carrying always, and the material is carrying the in-process, because the transport of conveyer belt 7 can carry out the feed, but if conveyer belt 7 directly carries the material in agitator tank 3, so with artifical adoption shovel or mechanical hopper with the material to carry in agitator tank 3 do not have the difference, all can lead to carrying out the inhomogeneous easy phenomenon of caking that can of mixing in-process owing to carry a large amount of the same kind of material simultaneously, so need carry out the feed through feed mechanism, the problem of material caking is solved on the one hand, still make the mixture more even and quick.

In the feeding process through the feeding mechanism, one end of a conveying frame 6 positioned in the feeding mechanism extends into the stirring tank 3 and is connected with the right end of the stirring tank 3 in a rotating mode, the left end of the conveying frame 6 is fixedly connected with the vehicle body 1 to support, two cavities are arranged on the conveying frame 6, a conveying belt 7 transversely arranged in each cavity is arranged in each cavity respectively, the conveying belt 7 needs to convey materials, and meanwhile the materials are prevented from falling in the conveying process, so that the conveying belt 7 adopts an arc-shaped concave structure, the materials can be positioned on the conveying belt 7 all the time in the conveying material process and cannot move to the side face, driving rods 15 used for driving the conveying belt 7 and matched with the conveying belt 7 are respectively connected at two ends of the conveying frame 6 in a rotating mode, the driving rods 15 are thick at two ends and thin and matched with the conveying belt 7, the driving rods 15 are driven by driving motors fixedly connected to the conveying frame 6, after the materials are conveyed to the tank body, the materials need to be stirred to the designated position in the tank body through a stirring mechanism, and the phenomenon of caking is avoided while the mixing is facilitated.

When materials are distributed, the materials are conveyed into the tank body through the conveying belt 7, meanwhile, the height of the quantitative discharging plate 9 is raised to a set value, so that the height of the materials on the corresponding conveying belt 7 is an average value, the distributing plate 16 used for guiding the materials on the conveying belt 7 is arranged above the corresponding conveying belt 7 on the conveying frame 6, the distributing plate 16 plates respectively extend downwards from the corresponding cavities, the distributing plate 16 is obliquely arranged, one end of the distributing plate 16 positioned on the left side is positioned in the middle of the conveying belt 7, the other end of the distributing plate 16 extends to the outer side of the conveying belt 7, so that in the moving process of the conveying belt 7, half of the materials positioned on the conveying belt 7 move outwards through the guide of the distributing plate 16 and are separated from the conveying belt 7, and because the distributing opening 17 used for leading the materials downwards is arranged on the conveying frame 6 corresponding to the distributing plate 16, the materials guided by the distributing plate 16 are dispersed downwards from the distributing opening 17, the distributing plate 16 on the right side conveys the rest parts on the conveyer belt 7 to the distributing opening 17, the rest parts on the conveyer belt 7 are conveyed downwards at the tail end of the conveyer belt 7, so that one conveyer belt 7 has a plurality of material scattering areas, the materials are divided into different areas and conveyed into the tank body, the materials entering the stirring tank 3 in unit time can be dispersed, the caking phenomenon can be well avoided when stirring is completed after the dispersion, the distributing plates 16 on two different conveyer belts 7 are respectively arranged in a staggered mode, the material scattering areas are staggered, the materials are further dispersed, the mixing is more convenient, meanwhile, a part of water source is often required to be synchronously added in the mixing process, and if water is added at one time, then can lead to entering into agitator tank 3 in earlier stage the interior material is comparatively rare, then the contact of the material that adds and water can be less, so can lead to combining inhomogeneous between various materials and the cement, so carry out the raceway 13 that is located between two conveyer belts 7 when carrying out the material and add and carry out continuous water supply, it is regional that adds water to the material that adds through a plurality of outlet 14 when supplying water simultaneously, can not lead to surface drying's problem when so making the material mix as far as, thereby make the material combine inseparable, add the less problem of water when still having avoided small batch to mix, can also prevent simultaneously that water and material from adding the uncoordinated problem of proportion.

Because the material in agitator tank 3 is realized through rotating agitator tank 3 when stirring, agitator tank 3's rotation can drive inside agitator blade 4 and carry out synchronous rotation, agitator blade 4 arranges for the slant, simultaneously in order to make the atress when stirring more even and stirring more even, so agitator blade 4 is the structure of multistage formula, simultaneously for the circumference equipartition in agitator tank 3, in stirring process, agitator tank 3 corotation, agitator blade 4 can carry the material right like this, but agitator tank 3 right-hand member is plugging structure, so can cause the motion of material but can not break away from agitator tank 3, and when needing the material to export after the stirring is accomplished, agitator tank 3 reversal, so agitator blade 4 can drive partial material left motion when agitator tank 3 rotates, and agitator tank 3 left end is equipped with the discharge gate, and be equipped with the blowing hopper that is used for accepting the material on the automobile body 1 of discharge gate below, the blowing hopper can carry out the temporary storage of material, the dolly that the automobile body of transporting the material promotes to below 1 when needing, then can get into the material direction in the dolly, then will pull away and can just can conveniently, can save the save time simultaneously, and can also can continue to transport the material output after not only making the agitator tank 3, thereby the corotation, thereby can continue to carry out the material.

In the process of material mixing, because the movement of the materials is driven by the mixing fan blades 4, a certain included angle exists between the mixing fan blades 4 and the welding area of the mixing tank 3, meanwhile, because the materials are in contact with the mixed concrete for a long time, part of the concrete is adhered to the contact part of the mixing fan blades 4 and the tank body, meanwhile, the tank body is also easy to adhere corresponding concrete, the adhered concrete is not cleared for a long time, the materials are not uniform when the next tank is mixed, and the agglomerated concrete is easy to agglomerate when the weather is hot, thereby affecting the quality after mixing, if the agglomerated concrete falls into the mixing tank 3 due to vibration, the agglomeration phenomenon of the concrete is increased, so the concrete on the tank body needs to be cleared in time, and in the clearance in-process on the one hand concrete that will prevent to drip accumulates on carriage 6, still prevent to accumulate simultaneously on the clearance mechanism, simultaneously in order to make the region of clearance more accurate, each moving member 20 sliding connection respectively is in corresponding guiding groove 19, and connect through the spring between two adjacent moving members 20, and moving member 20 is corresponding with stirring fan blade 4, can contact with corresponding cleaning brush 21 when stirring fan blade 4 rotates, stirring fan blade 4 can drive cleaning brush 21 and carry out synchronous motion simultaneously, and the spring that stirring fan blade 4 connects can compress the energy storage, reset after stirring fan blade 4 breaks away from, the material that clears up through cleaning brush 21 can lead through the deflector that is located cleaning brush 21, prevent that the material from accumulating on cleaning brush 21 and backup pad 18.

Claims

1. The utility model provides a concrete mixing mechanism is used in pile foundation construction, which comprises a carriage body (1), a serial communication port, automobile body (1) lower extreme is equipped with a plurality of supporting wheels (2), automobile body (1) upper end is connected with agitator tank (3) through supporting wheel (2), be equipped with stirring fan blade (4) in agitator tank (3), stirring fan blade (4) are located agitator tank (3) and are the multistage formula structure, the flabellum along agitator tank (3) axis at agitator tank (3) medial surface circumference equipartition, agitator tank (3) left end is equipped with annular feed inlet (5) that stretches out towards the outside, fixedly connected with feed mechanism is gone up in automobile body (1) in the feed inlet (5) outside, feed mechanism stretches into in agitator tank (3) and is connected with coaxial rotation between agitator tank (3), feed mechanism includes carriage (6), be equipped with conveyer belt (7) in carriage (6), the feed frame outside is equipped with down hopper (8), the vertical sliding connection in discharge gate position has through motor drive's ration discharge plate (9), be equipped with in the feed frame and be used for dialling the material on the conveyer belt (7) and dial the position, feed mechanism still is equipped with the feed mechanism and carries out the unloading mechanism and carries out the medial surface.

2. The concrete mixing mechanism for pile foundation construction according to claim 1, wherein the feeding mechanism comprises a conveying frame (6) rotatably connected in the mixing tank (3), an arched protection plate (10) is arranged on the conveying frame (6), the conveying frame (6) is internally divided into a first cavity (11) and a second cavity (12), a water conveying pipe (13) is arranged between the two cavities, a plurality of water outlets (14) are arranged at the lower end of the water conveying pipe (13), a conveying belt (7) is respectively arranged in the left cavity and the right cavity, the conveying belt (7) is an arc belt with two high ends and a low middle part, and driving rods (15) which are used for driving the arc belt and matched with the arc belt are respectively and rotatably connected at the left end and the right end of the conveying frame (6).

3. The concrete mixing mechanism for pile foundation construction according to claim 2, wherein the distributing mechanism comprises a distributing plate (16) fixedly connected to the inside of the conveying frame (6) and located on the arched protection plate (10), the distributing plate (16) extends downward, the lower end of the distributing plate is matched with the conveying belt (7), the distributing plate (16) is divided into a left distributing plate (16) and a right distributing plate (16), the left end of the left distributing plate (16) is located at the right end of the middle of the conveying belt (7) and located on the outer side of the conveying belt (7), the left end of the right distributing plate (16) is located at the right end of the inner side of the conveying belt (7) and located on the outer side of the conveying belt (7), and distributing ports (17) which are vertically arranged are respectively formed in the outer side of the conveying frame (6).

4. The concrete mixing mechanism for pile foundation construction according to claim 1, wherein the cleaning mechanism comprises a plurality of supporting plates (18) which are fixedly connected to the conveying frame (6) and are arranged in an oblique line, the upper ends of the supporting plates (18) are respectively provided with a guide groove (19) which is arranged in a transverse direction, a moving part (20) is connected in the guide groove (19) in a transverse sliding mode, each moving part (20) is connected with a cleaning brush (21) through an elastic telescopic rod, a guide plate which is used for guiding materials is fixedly connected to the cleaning rod, and the guide plate is arranged in an oblique direction.

5. The concrete mixing mechanism for pile foundation construction according to claim 1, wherein the middle of the mixing tank (3) is an oval cylinder, the left end of the mixing tank (3) is provided with a discharge hole, and the right end of the mixing tank (3) is a plane and is rotatably connected with the feeding mechanism.

6. The concrete mixing mechanism for pile foundation construction according to claim 1, wherein a discharge hopper is arranged below a discharge port of the mixing tank (3) at the left end of the body (1), and the discharge hopper is conical and is arranged with an opening facing downwards.

7. The concrete mixing mechanism for pile foundation construction according to claim 4, wherein the moving members (20) are arranged in a staggered manner, each moving member (20) corresponds to each mixing blade (4), and adjacent moving members (20) are connected through springs.

8. The concrete mixing mechanism for pile foundation construction according to claim 1, wherein the inner side surface of the left end of the mixing tank (3) is fixedly connected with a plugging plate (22) for plugging and guiding out materials, and the plugging plate (22) is obliquely arranged.

9. The concrete mixing mechanism for pile foundation construction according to claim 1, wherein the vehicle body (1) is arranged in a triangular shape, the lower end of the vehicle body (1) is fixedly connected with wheels (23) for supporting, and the left end of the vehicle body (1) is fixedly connected with a traction ring (24) for traction to facilitate movement.

10. The concrete mixing mechanism for pile foundation construction according to claim 1, wherein the number of the discharging hoppers (8) is two, the discharging parts at the lower end of each discharging hopper (8) are respectively positioned above the corresponding conveyer belt (7), and the quantitative discharging plate (9) is arranged at one side facing the mixing tank (3).