CN112873551B - A equipment for concrete processing - Google Patents

Abstract

The invention discloses a device for processing concrete, the structure of which comprises: feeder hopper, support frame, driver, base, conveying cylinder, churn. Has the advantages that: according to the invention, the rotating blade is arranged, the telescopic column inside is matched with the spring, concrete falls down by gravity and hits the surface of the vibrating plate in the stirring process, the telescopic column and the spring shrink to enable the vibrating plate to move downwards, so that the rigid impact between the concrete and the blade is avoided, meanwhile, the gas bag is extruded, the gas inside supports the pneumatic telescopic column, the elastic plate moves along the movable groove, at the moment, the arc surface of the elastic plate collapses, the concrete adheres to the surface of the elastic plate, the vibrating plate resets along with the rotation of the stirring cylinder body and the directional acting force of the spring, the collapse area of the elastic plate upsprings, the concrete adhered to the surface is bounced, and the situation that the concrete adhered to the surface of the blade is difficult to fall off is effectively avoided.

Description

A equipment for concrete processing

Technical Field

The invention relates to equipment for processing concrete, and belongs to the technical field of concrete processing.

Background

The concrete is a common building material and is formed by mixing sand, a cementing material and slurry, and the concrete is required to be stirred through a stirring device, so that all components in the concrete are uniformly mixed; wherein, in the concrete processing, the self-falling concrete mixer is widely used; inside churn of mixer is around the horizontal axis rotation for the material in the churn, after being promoted to the take the altitude, borrow the dead weight whereabouts, the motion of going back like this reaches the effect of even stirring, but at the process of stirring, the concrete produces certain adhesive force and contacts completely with the blade under the action of gravity, makes the blade of adhesion in the churn be difficult to drop in rotating, leads to more and more firm in long-time use, causes the weight grow of blade and has increased the consumption.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide equipment for processing concrete, so as to solve the problem that the concrete falling by gravity is adhered to the surface of a blade and is difficult to fall off.

In order to realize the purpose, the invention is realized by the following technical scheme: an apparatus for concrete processing, the structure of which comprises: feeder hopper, support frame, driver, base, defeated feed cylinder, churn, the base top is provided with the support frame and is connected through the electric welding, the feeder hopper is installed on the support frame right side, and rotates with the support frame to be connected, the driver is fixed at the base upper surface to be connected through the wire with the guide pulley of feeder hopper, the churn lower surface is connected through the lock with the base upper surface, defeated feed cylinder locates the churn left side and closes through the cover and be connected.

As a preferred technical scheme of the equipment for processing the concrete, the mixing drum comprises a mixing drum body, more than two auxiliary rods, rotating blades, arc blocks and cleaning pipes, wherein the auxiliary rods are installed on the side surfaces of the rotating blades in a staggered mode, the arc blocks are of a middle protruding block structure and are connected with the rotating blades through electric welding, the rotating blades are provided with three blocks and are distributed in the mixing drum body at equal intervals, and the cleaning pipes are arranged in the mixing drum body and are connected to the inside of the rotating blades in a penetrating mode.

As a preferred technical scheme of the equipment for processing concrete, the rotating blade comprises a blade plate body, two gas bags, telescopic columns, a sliding block, springs, a vibration plate and an extrusion block, wherein the sliding block is symmetrically distributed on the inner side of the blade plate body, the telescopic columns are positioned on the left side of the sliding block and are connected with the blade plate body in a buckling mode, the springs are connected with the telescopic columns in a sleeving mode, the gas bags are arranged on the upper surface of the blade plate body and are connected with the vibration plate through pipelines, the side face of the vibration plate is connected with the sliding block in a sliding mode, and the extrusion block is fixed on the lower surface of the vibration plate and is connected with the lower surface of the vibration plate through gluing.

As an optimal technical scheme of the equipment for processing the concrete, the vibration plate comprises a vibration plate body, two movable grooves, two elastic plates, two buckling plates and two pneumatic telescopic columns, the buckling plates are installed at the top of the vibration plate body and connected through sleeving, the two movable grooves are symmetrically distributed in the buckling plates, the elastic plates are connected in the buckling plates in a penetrating mode and have gaps with the buckling plates, the elastic plates are connected with the movable grooves through buckling, and the pneumatic telescopic columns are installed in the vibration plate body and buckled with the bottoms of the elastic plates at the top.

As a preferred technical scheme of the equipment for processing concrete, the rotating blades are of fan-shaped structures, and the three rotating blades and the stirring cylinder rotate synchronously.

As a preferred technical scheme of the equipment for processing the concrete, the cleaning pipe is of a hollow structure, is internally provided with a one-way valve and is annularly distributed in the cleaning pipe.

As the preferable technical scheme of the equipment for processing the concrete, the joint of the blade plate body and the sliding block is provided with the air hole.

As a preferable technical scheme of the equipment for processing the concrete, the elastic plate is made of a memory metal material.

As the preferable technical scheme of the equipment for processing the concrete, the cambered surface blocks, the auxiliary rods and the rotating blades are all made of carbon steel.

Advantageous effects

The invention relates to a device for processing concrete, which has the following effects:

the invention utilizes the mixing drum, the auxiliary rod, the rotating blade and the cambered surface block are mutually matched, the cambered surface block crushes incompletely mixed concrete, the mixing of the auxiliary rod is facilitated to increase the mixing effect of the concrete, and when the mixing is finished, the cleaning pipe is connected with an external water pump, so that water is sprayed out from the one-way valve in the cleaning pipe to clean the periphery in the mixing cylinder.

According to the invention, the rotating blades are arranged, the telescopic columns in the rotating blades are matched with the springs, concrete falls down by gravity and hits the surface of the vibrating plate in the stirring process, the telescopic columns and the springs shrink to enable the vibrating plate to move downwards, so that the rigid impact between the concrete and the blades is avoided, meanwhile, the gas bag is extruded, the gas in the vibrating plate pushes the pneumatic telescopic columns to enable the elastic plate to move along the movable groove, the arc-shaped surface of the elastic plate collapses, the concrete adheres to the surface of the vibrating plate, the vibrating plate resets along with the rotation of the stirring cylinder and the directional acting force of the springs, the collapse area of the elastic plate upsprings, and the concrete adhered to the surface is popped down, so that the condition that the concrete adhered to the surface of the blades is difficult to fall off is effectively avoided.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view of the construction of an apparatus for concrete processing according to the present invention;

FIG. 2 is a side sectional view of the mixing drum of the present invention;

FIG. 3 is a front sectional view of a rotor blade according to the present invention;

FIG. 4 is a schematic front view of the rotor blade of the present invention;

fig. 5 is a front sectional view of the vibration plate of the present invention.

In the figure: the device comprises a feed hopper-1, a support frame-2, a driver-3, a base-4, a delivery cylinder-5, a mixing cylinder-6, a mixing cylinder-61, an auxiliary rod-62, a rotating blade-63, an arc surface block-64, a cleaning pipe-65, a blade plate body-631, a gas bag-632, a telescopic column-633, a sliding block-634, a spring-635, a vibration plate-636, an extrusion block-637, a vibration plate body-6361, a movable groove-6362, an elastic plate-6363, a buckling plate-6364 and a pneumatic telescopic column-6365.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1, 2, 3, 4 and 5, the present invention provides a technical solution of an apparatus for concrete processing:

as shown in fig. 1, an apparatus for concrete processing structurally comprises: feeder hopper 1, support frame 2, driver 3, base 4, defeated feed cylinder 5, churn 6, 4 tops of base are provided with support frame 2 and are connected through the electric welding, feeder hopper 1 is installed on 2 right sides of support frame, and rotates with support frame 2 and be connected, driver 3 is fixed at 4 upper surfaces of base to be connected through the wire with the guide pulley of feeder hopper 1, 6 lower surfaces of churn are connected through the lock with 4 upper surfaces of base, defeated feed cylinder 5 is located 6 left sides of churn and is connected through registrates.

As shown in fig. 2, churn 6 includes churn barrel 61, auxiliary rod 62, rotor blade 63, cambered surface piece 64, scavenge pipe 65, auxiliary rod 62 is equipped with more than two, and the dislocation is installed in rotor blade 63 side, cambered surface piece 64 is middle part lug structure to be connected through the electric welding with rotor blade 63, rotor blade 63 is equipped with three, and the equidistance distributes inside churn barrel 61, scavenge pipe 65 sets up inside churn barrel 61, and through connection is inside rotor blade 63, is favorable to fully stirring the inside concrete of churn 6, and utilizes the area of auxiliary rod 62 increase stirring, does benefit to cambered surface piece 64 and smashes the inhomogeneous mixed piece that will mix, avoids the concrete adhesion all the time at the blade surface.

As shown in fig. 3-4, the rotating blade 63 includes a blade plate 631, two gas bags 632, two telescopic pillars 633, a slider 634, a spring 635, a vibration plate 636, and an extrusion block 637, the slider 634 is symmetrically distributed inside the blade plate 631, the telescopic pillars 633 are located at the left side of the slider 634 and are connected to the blade plate 631 in a snap-fit manner, the spring 635 is connected to the telescopic pillars 633 in a sleeved manner, the gas bags 632 are disposed on the upper surface of the blade plate 631 and are connected to the vibration plate 636 through a pipe, the side surface of the vibration plate 636 is connected to the slider 636 in a sliding manner, the extrusion block 637 is fixed to the lower surface of the vibration plate 636 and is connected to the vibration plate 636 through gluing, which is beneficial to achieve that when concrete falls downward, the concrete hits the vibration plate 636, the spring 635 displaces with the telescopic pillars 633, so as to achieve a buffering effect, and under the action of the spring, the concrete adhered on the surface of the blade is ejected, and the weight of the adhesion is reduced.

As shown in fig. 5, the vibration plate 636 includes a vibration plate 6361, a movable groove 6362, two elastic plates 6363, two fastening plates 6364 and two pneumatic telescopic columns 6365, the fastening plates 6364 are mounted on the top of the vibration plate 6361 and are connected by being nested, the movable groove 6362 is opened and symmetrically distributed inside the fastening plates 6364, the elastic plates 6363 are connected inside the fastening plates 6364 in a penetrating manner and have a gap with the fastening plates 6364, the elastic plates 6363 are connected with the movable groove 6362 by being fastened, the pneumatic telescopic columns 6365 are mounted inside the vibration plate 6361 and fastened to the bottom of the elastic plates 6363 at the top, which is beneficial to driving the pneumatic telescopic columns 6365 to move upwards when the gas bag 632 is squeezed, so as to jack up the elastic plates 6363 inside the vibration plate 6361, while the elastic plates 6363 exposed outside shrink to form upward potential energy, and the elastic plates 6363 exposed outside are driven by the spring 635 to reversely pop up, the concrete adhered to the surface of the blade is bounced off, so that the weight of the concrete adhered to the surface of the blade under the action of gravity is effectively reduced.

As shown in fig. 2, the rotating blades 63 have a fan-shaped structure, and the three rotating blades 63 rotate synchronously with the mixing cylinder 61, so that the effect of fully mixing the concrete inside and mixing by gravity is facilitated.

As shown in fig. 3, the cleaning pipe 65 is a hollow structure, and is provided with a check valve inside and distributed annularly inside the cleaning pipe 65, so as to be connected with an external water pump, and the check valve sprays out water, thereby reducing the workload of subsequent cleaning.

As shown in fig. 3-4, the air holes are formed at the connection position of the blade plate 631 and the sliding block 634, which is beneficial to avoiding the condition that the concrete is accumulated in the gap between the blade plate and the sliding block to cause the condition of incapability of moving.

When in use:

firstly, a worker puts concrete materials into a feed hopper 1, and simultaneously switches on an external power supply to enable a driver 3 to start to operate; the driver 3 pulls up the feed hopper 1 to convey the material inside to the stirring cylinder 6 for processing; the concrete is stirred along with the rotation of the stirring cylinder 6, and the auxiliary rods 62 which are arranged in a crossed way collide with the agglomerated concrete when rotating, so that the agglomerated concrete is dispersed and mixed; when the mixing drum 6 drives the concrete to rotate to the highest position, the concrete falls under the action of gravity and strikes the surface of the vibration plate 636, at this time, the vibration plate 636 moves downwards along the slider 634, the compression causes the spring 635 and the telescopic column 633 to contract, and drives the compression block 637 to compress the gas bag 632, so that the gas in the gas bag 632 enters the pneumatic telescopic column 6365 through a pipeline, so that the elastic plate 6363 in the concave position is propped upwards, the elastic plate 6363 in the convex part becomes a collapse state, at this time, more concrete adheres to the surface of the elastic plate, along with the rotation, the vibration plate 636 returns to the original position slowly under the action of the elastic force of the spring, the elastic plate 6363 generates a large reverse elastic force in the area where the elastic plate 6365 is pulled to collapse, the concrete adhered to the surface is bounced, and the situation that the concrete is adhered to the surface of the blade and is difficult to fall off is effectively avoided; finally, the concrete is delivered to a designated place from the delivery cylinder 5; after work, when needing to clear up 6 insides of churn, only need be connected scavenge pipe 65 with outside water pump to let water spout all around to the section of thick bamboo in by the inside check valve of scavenge pipe 65, clear up the inner wall, thereby reduce staff's the clearance degree of difficulty.

In the description of the present invention, it is to be understood that the indicated orientations or positional relationships are based on the orientations or positional relationships shown in the drawings, which are merely for convenience in describing the present invention and for simplicity in description, and are not intended to indicate or imply that the indicated devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the present invention, unless otherwise explicitly specified or limited, for example, it may be fixedly attached, detachably attached, or integrated; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

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 (4)

1. An apparatus for concrete processing, the structure of which comprises: feeder hopper (1), support frame (2), driver (3), base (4), feed delivery cylinder (5), churn (6), its characterized in that:

the feeding device is characterized in that a support frame (2) is arranged above the base (4) and connected with the support frame (2) through electric welding, the feeding hopper (1) is installed on the right side of the support frame (2) and is rotatably connected with the support frame (2), the driver (3) is fixed on the upper surface of the base (4) and is connected with a guide wheel of the feeding hopper (1) through a wire, the lower surface of the mixing drum (6) is connected with the upper surface of the base (4) through buckling, and the material conveying drum (5) is arranged on the left side of the mixing drum (6) and is connected through sleeving;

the stirring cylinder (6) comprises a stirring cylinder body (61), an auxiliary rod (62), rotating blades (63), arc blocks (64) and a cleaning pipe (65), wherein the auxiliary rod (62) is more than two and is installed on the side surface of the rotating blades (63) in a staggered manner, each arc block (64) is of a middle lug structure and is connected with the corresponding rotating blade (63) through electric welding, the rotating blades (63) are three and are distributed inside the stirring cylinder body (61) at equal intervals, and the cleaning pipe (65) is arranged inside the stirring cylinder body (61) and is connected inside the rotating blades (63) in a penetrating manner;

the rotary blade (63) comprises a blade plate body (631), two gas bags (632), two telescopic columns (633), a sliding block (634), a spring (635), a vibration plate (636) and an extrusion block (637), the sliding block (634) is symmetrically distributed on the inner side of the blade plate body (631), the telescopic columns (633) are located on the left side of the sliding block (634) and are connected with the blade plate body (631) in a buckling mode, the spring (635) is connected with the telescopic columns (633) in a sleeving mode, the gas bags (632) are arranged on the upper surface of the blade plate body (631) and are connected with the vibration plate (636) through a pipeline, the side surface of the vibration plate (636) is connected with the sliding block (634) in a sliding mode, and the extrusion block (637) is fixed on the lower surface of the vibration plate (636) and is connected with the vibration plate (636) through gluing;

the vibrating plate (636) comprises a vibrating plate body (6361), a movable groove (6362), an elastic plate (6363), buckling plates (6364) and pneumatic telescopic columns (6365), wherein the buckling plates (6364) are installed at the top of the vibrating plate body (6361) and connected through sleeving, the movable groove (6362) is provided with two grooves, the two grooves are symmetrically distributed inside the buckling plates (6364), the elastic plate (6363) is connected inside the buckling plates (6364) in a penetrating mode, gaps exist between the elastic plate and the buckling plates (6364), the elastic plate (6363) is connected with the movable groove (6362) through buckling, and the pneumatic telescopic columns (6365) are installed inside the vibrating plate body (6361) and are buckled with the bottom of the elastic plate (6363) at the top.

2. An apparatus for concrete working according to claim 1, characterised in that: the rotating blades (63) are of fan-shaped structures, and the three rotating blades (63) and the stirring cylinder body (61) rotate synchronously.

3. An apparatus for concrete working according to claim 1, characterised in that: the cleaning pipe (65) is of a hollow structure, is internally provided with a one-way valve and is annularly distributed inside the cleaning pipe (65).

4. An apparatus for concrete working according to claim 1, characterised in that: the connecting part of the blade plate body (631) and the sliding block (634) is provided with an air hole.

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