CN112917688A

CN112917688A - Longitudinally placed concrete stirring device

Info

Publication number: CN112917688A
Application number: CN202110084529.6A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-21
Filing date: 2021-01-21
Publication date: 2021-06-08

Abstract

The invention discloses a longitudinally placed concrete stirring device, and relates to the technical field of concrete stirring. This vertically place formula concrete mixing device is including placing base and churn, it passes through slide bar and churn bottom sliding connection to place the base top, the churn bottom run through by the churn and with there is the space between the churn, churn bottom end fixed mounting is at placing the base top, the part side that the churn is located the churn inside is fixed with the stirring leaf. This vertically place formula concrete mixing device, the stirring in-process, actuating mechanism can be discontinuous mentions the movable roll for the stirring roller not only can the horizontal mixing, can also play certain vertical stirring effect to the concrete, and simultaneously, supplementary rabbling mechanism still can carry out supplementary stirring to the concrete between two stirring leaves, prevents that the concrete between two stirring leaves can't receive fine stirring, has improved the stirring effect of this agitating unit to the concrete.

Description

Longitudinally placed concrete stirring device

Technical Field

The invention relates to the technical field of concrete mixing, in particular to a longitudinally placed concrete mixing device.

Background

Concrete, referred to as "concrete" for short: refers to the general name of engineering composite materials formed by cementing aggregate into a whole by cementing materials. The term concrete generally refers to cement as the cementing material and sand and stone as the aggregate; the cement concrete, also called as common concrete, is obtained by mixing with water (which may contain additives and admixtures) according to a certain proportion and stirring, and is widely applied to civil engineering.

The existing concrete needs to be stirred by a stirring device in the processing process to realize the sufficient mixing among various raw materials, however, the existing concrete stirring device can not well stir the concrete between two stirring blades under the action of viscosity and gravity in the stirring process, certain influence exists on the stirring efficiency of the concrete, the quality of the concrete after stirring is uneven, and certain influence also exists on the use of the concrete.

Disclosure of Invention

Technical problem to be solved

In view of the deficiencies of the prior art, the present invention provides a longitudinally placed concrete mixing device that solves the problems set forth in the background art above.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a vertically place formula concrete mixing device, is including placing base and churn, it passes through slide bar and churn bottom sliding connection to place the base top, the churn bottom run through by the stirring roller and with the stirring roller between have the space, stirring roller bottom end fixed mounting places the base top, the stirring roller is located the inside part side of churn and is fixed with the stirring leaf, the stirring roller is including fixed cover and activity roller, fixed cover top is run through by the activity roller and closely laminates with the activity roller, the activity roller bottom is connected with four actuating mechanism of group, fixed cover top is run through and is fixed with the baffle, the baffle is fixed inside the churn, the one end bottom that the stirring roller was kept away from to the stirring leaf is provided with supplementary rabbling mechanism.

Preferably, actuating mechanism includes drive plate, drive push rod, actuating sleeve, hemisphere driving chip and driving block, drive plate one end is fixed in the movable roller bottom, and other end bottom and the laminating of drive push rod, the drive push rod bottom mounting is in the sunken side center department of hemisphere driving chip, hemisphere driving chip fixed mounting is in actuating sleeve bottom and downward protrusion, actuating sleeve top fixed mounting inside the churn and with the inside intercommunication of churn, four groups actuating sleeve and driving block are the annular array form and distribute and placing the base top, and four actuating sleeves are the same with the circumference centre of a circle that four driving blocks formed, the driving block top is the hemisphere shape.

Preferably, supplementary rabbling mechanism is including supplementary installation piece, supplementary stirring piece, supplementary push pedal and supplementary puddler, supplementary installation piece fixed mounting is in stirring leaf bottom, supplementary stirring piece top is rotated and is installed in supplementary installation piece bottom, and supplementary stirring piece and supplementary installation piece junction closely laminate with supplementary installation piece, supplementary stirring piece top is the arc form and through elasticity ball and supplementary installation piece inner wall connection that resets, supplementary push pedal one side sets up between supplementary stirring piece and churn inner wall, and the opposite side is fixed inside the churn, and supplementary stirring piece and supplementary push pedal are connected one side and inwards cave in, one side that supplementary push pedal was kept away from to supplementary stirring piece is fixed with supplementary puddler one end.

Preferably, one side of the auxiliary pushing plate connected with the auxiliary stirring sheet is arc-shaped, and a plurality of semicircular vibration grooves are formed in the side, close to the auxiliary pushing plate, of the auxiliary stirring sheet inwards.

Preferably, one side that the elasticity ball that resets is close to supplementary stirring piece is the opening form, and the opening form top and the bottom of elasticity ball that resets are articulated with two negative pressure connecting rod one end respectively, two the negative pressure connecting rod other end is articulated each other, two negative pressure connecting rod junction one side is fixed with negative pressure pull rod one end, the negative pressure pull rod other end is fixed with the negative pressure piston, the negative pressure piston closely laminates with the negative pressure intracavity wall of seting up at supplementary stirring piece inside, the negative pressure chamber communicates with the vibration chamber of seting up at supplementary stirring rod inside, vibration intracavity wall and the laminating of spherical stopper, the spherical stopper is fixed with pole one end that shakes, the pole other end that shakes is located the vibration chamber outside.

Preferably, the top fixed mounting of pole that shakes has the vibration ejector pad, vibration chamber top is connected with the rotation of vibration arc board center department, the equal fixed mounting in vibration arc board both ends has the vibration ball, one side that the vibration arc board was kept away from to the vibration ball is provided with the vibration transmission piece, and there is the space between vibration transmission piece and the vibration ball, the vibration ball inner wall passes through the spring and strikes the pole and be connected, the vibration arc board is close to that pole one side articulates there is sharp corner piece, and the opposite side passes through spring and vibration intracavity wall connection, sharp corner piece passes through the spring and is connected with the vibration arc board, the distance between sharp corner piece pointed end and the pole that shakes is less than the vibration ejector pad and keeps away from the one end of pole that shakes and the distance between the pole that shakes.

(III) advantageous effects

The invention provides a longitudinally placed concrete mixing device. The method has the following beneficial effects:

(1) this vertically place formula concrete mixing device, the stirring in-process, actuating mechanism can be discontinuous mentions the movable roll for the stirring roller not only can the horizontal mixing, can also play certain vertical stirring effect to the concrete, and simultaneously, supplementary rabbling mechanism still can assist the stirring to the concrete between two stirring leaves, prevents that the concrete between two stirring leaves can't receive fine stirring, has improved the stirring effect of this agitating unit to the concrete.

(2) This vertically place formula concrete mixing device can be so that supplementary stirring piece has certain vibration at the rotation in-process through the cooperation between supplementary push pedal and the semi-circular vibration groove, and then can also shake garrulous with the inside bubble of concrete when improving supplementary stirring piece stirring effect, prevents that the bubble from influencing the quality of concrete.

(3) This vertically place formula concrete mixing device, elasticity ball that resets not only can play the effect that resets to supplementary puddler, can also make supplementary puddler self produce certain vibration through pole and the vibration arc board of shaking, and then improve the vibration effect of supplementary puddler and supplementary puddler.

(4) This vertically place formula concrete mixing device strikes pole and vibration transmission piece through setting up and can ensure only just can violently strike supplementary puddler when the vibration arc board resets in the twinkling of an eye to improve the vibration intensity of supplementary puddler.

(5) This vertically place formula concrete mixing device, the displacement that can utilize the pole that shakes through the special setting to sharp corner piece and vibration ejector pad position improves the turned angle of vibration arc board, ensures that the speed of vibration arc board when reseing under the effect of spring is faster, and then can further improve the stirring intensity of supplementary puddler.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the main body of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of portion B of FIG. 2 according to the present invention;

FIG. 5 is a schematic view of the elastic restoring ball according to the present invention;

FIG. 6 is an enlarged view of the portion C of FIG. 4 according to the present invention.

In the figure: 1 placing base, 2 stirring cylinders, 3 sliding rods, 4 stirring rollers, 41 fixing sleeves, 42 movable rollers, 5 stirring blades, 6 driving mechanisms, 61 driving plates, 62 driving push rods, 63 driving sleeves, 64 hemispherical driving plates, 65 driving blocks, 7 partition plates, 8 auxiliary stirring mechanisms, 81 auxiliary mounting blocks, 82 auxiliary stirring plates, 821 semicircular vibration grooves, 822 negative pressure pistons, 823 negative pressure cavities, 83 auxiliary push plates, 84 auxiliary stirring rods, 841 vibration cavities, 842 spherical plugs, 843 vibration rods, 8431 vibration push blocks, 844 vibration arc plates 845, vibration balls, 8451 knocking rods, 846 vibration transmission blocks, 847 sharp-corner blocks, 85 elastic reset balls, 851 negative pressure connecting rods and 86 negative pressure pull rods.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a longitudinally placed concrete stirring device comprises a placing base 1 and a stirring drum 2, the top of the placing base 1 is connected with the bottom of the stirring drum 2 in a sliding mode through a sliding rod 3, the bottom of the stirring drum 2 is penetrated through by a stirring roller 4, a gap is reserved between the bottom of the stirring roller 4 and the stirring roller 4, the bottom end of the stirring roller 4 is fixedly installed at the top of the placing base 1, a stirring blade 5 is fixedly arranged on the side face of the part, located inside the stirring drum 2, of the stirring roller 4, the stirring roller 4 comprises a fixed sleeve 41 and a movable roller 42, the top of the fixed sleeve 41 is penetrated through by the movable roller 42 and tightly attached to the movable roller 42, the bottom end of the movable roller 42 is connected with four groups of driving mechanisms 6, a partition plate 7 is fixedly penetrated through the top of the fixed sleeve 41, the partition plate 7 is fixedly arranged inside the stirring drum 2, an auxiliary stirring mechanism 8 is arranged, make stirring roller 4 not only can the horizontal mixing, can also play certain vertical stirring effect to the concrete, simultaneously, supplementary rabbling mechanism 8 still can carry out supplementary stirring to the concrete between two stirring leaves 5, prevents that the concrete between two stirring leaves 5 can't receive fine stirring, has improved the stirring effect of this agitating unit to the concrete.

Preferably, in this embodiment, in order to make the movable roller 42 lift by using the mutual rotation between the mixing drum 2 and the placing base 1, the driving mechanism 6 includes a driving plate 61, a driving push rod 62, a driving sleeve 63, a hemispherical driving sheet 64 and a driving block 65, one end of the driving plate 61 is fixed at the bottom of the movable roller 42, the bottom of the other end is attached to the driving push rod 62, the bottom of the driving push rod 62 is fixed at the center of the concave side of the hemispherical driving sheet 64, the hemispherical driving sheet 64 is fixedly installed at the bottom of the driving sleeve 63 and protrudes downwards, the top of the driving sleeve 63 is fixedly installed inside the mixing drum 2 and is communicated with the inside of the mixing drum 2, the four groups of driving sleeves 63 and the driving block 65 are distributed at the top of the placing base 1 in an annular array shape, the circle centers of the four driving sleeves 63 and the four driving blocks.

Preferably, in this embodiment, in order to utilize the lifting of the movable roller 42 to assist the concrete mixing, the auxiliary mixing mechanism 8 includes an auxiliary mounting block 81, an auxiliary mixing blade 82, an auxiliary push plate 83 and an auxiliary mixing rod 84, the auxiliary mounting block 81 is fixedly mounted at the bottom of the mixing blade 5, the top end of the auxiliary mixing blade 82 is rotatably mounted at the bottom of the auxiliary mounting block 81, the joint of the auxiliary mixing blade 82 and the auxiliary mounting block 81 is tightly attached to the auxiliary mounting block 81, the top of the auxiliary mixing blade 82 is arc-shaped and is connected to the inner wall of the auxiliary mounting block 81 through an elastic reset ball 85, one side of the auxiliary push plate 83 is disposed between the auxiliary mixing blade 82 and the inner wall of the mixing drum 2, the other side is fixed inside the mixing drum 2, the side of the auxiliary mixing blade 82 connected to the auxiliary push plate 83 is recessed inwards, the side of the auxiliary mixing blade 82 far away from the auxiliary push plate 83 is fixed, the auxiliary push plates 83 are positioned and numbered corresponding to the driving sleeve 63.

Preferably, in this embodiment, in order to make the auxiliary pushing plate 83 vibrate in a certain direction during the rotation process, a side of the auxiliary pushing plate 83 connected to the auxiliary stirring blade 82 is disposed in an arc shape, and a side of the auxiliary stirring blade 82 close to the auxiliary pushing plate 83 is inwardly provided with a plurality of semicircular vibration grooves 821.

Preferably, in this embodiment, in order to improve the vibration effect of the auxiliary stirring rod 84 by utilizing the deformation of the elastic restoring ball 85, one side of the elastic restoring ball 85 close to the auxiliary stirring sheet 82 is open, the open top and bottom of the elastic restoring ball 85 are respectively hinged with one end of two negative pressure connecting rods 851, the other ends of the two negative pressure connecting rods 851 are hinged with each other, one side of the joint of the two negative pressure connecting rods 851 is fixed with one end of a negative pressure pull rod 86, the other end of the negative pressure pull rod 86 is fixed with a negative pressure piston 822, the negative pressure piston 822 is tightly attached to the inner wall of a negative pressure cavity 823 arranged inside the auxiliary stirring sheet 82, the negative pressure cavity 823 is communicated with a vibration cavity 841 arranged inside the auxiliary stirring rod 84, the inner wall of the vibration cavity 841 is attached to a spherical plug 842, one end of the spherical plug 842 is fixed to one end of a vibration.

Preferably, in this embodiment, in order to make the auxiliary stirring rod 84 vibrate by using the movement of the vibration rod 843, a vibration pushing block 8431 is fixedly mounted at the top of the vibration rod 843, the top of the vibration cavity 841 is rotatably connected with the center of the vibration arc plate 844, vibration balls 845 are fixedly mounted at both ends of the vibration arc plate 844, one side of each vibration ball 845, which is far away from the vibration arc plate 844, is provided with a vibration transmission block 846, a gap exists between each vibration transmission block 846 and each vibration ball 845, the inner wall of each vibration ball 845 is connected with the corresponding knocking rod 8451 through a spring, a sharp corner block 847 is hinged to one side of the vibration arc plate 844, which is close to the vibration rod 843, the other side of the vibration arc plate 844 is connected with the inner wall of the vibration cavity 841 through a spring, the sharp corner block 847 is connected with the vibration arc plate 844 through a spring, and the distance between the tip of the sharp corner block 847 and the.

The working principle is as follows: in the stirring process, the stirring cylinder 2 rotates at the top of the placing base 1, when the hemispherical driving sheet 64 is contacted with the top of the driving block 65, the driving block 65 can push the hemispherical driving sheet 64 to deform, the hemispherical driving sheet 64 pushes the movable roller 42 to ascend through the driving push rod 62 and the driving plate 61, the movable roller 42 drives the stirring blade 5 to ascend, and when the hemispherical driving sheet 64 is separated from the driving block 65, the movable roller 42 descends and resets; in the stirring process, the auxiliary stirring sheet 82 can play an auxiliary stirring role on the concrete between the two stirring blades 5; when the movable roller 42 rises, the auxiliary push plate 83 pushes the auxiliary stirring piece 82 to rotate, and when the auxiliary push plate 83 contacts the hemispherical vibration groove 821, the auxiliary stirring piece 82 vibrates, the elastic reset ball 85 is extruded in the rotation process of the auxiliary stirring piece 82, the elastic reset ball 85 pulls the negative pressure piston 822 to move through the negative pressure connecting rod 851 and the negative pressure pull rod 86, the air pressure inside the negative pressure cavity 823 and the vibration cavity 841 is reduced, the spherical plug 842 drives the vibration rod 843 to move towards the auxiliary stirring piece 82 under the action of the air pressure, the sharp corner block 847 which is closer to the vibration push block 8431 rotates under the action of the vibration push block 8431, the sharp corner block 847 which is farther from the vibration push block 8431 rotates under the pushing action of the vibration push block 8431, because the rotation speed of the vibration arc plate 844 is slower at this time, the centrifugal force borne by the knocking rod 8451 is not enough to enable the rod 8451 to extend out of the vibration ball 845, therefore, at this moment, the vibration arc plate 844 and the vibration ball 845 normally rotate and compress the spring, when the sharp corner block 847 breaks away from the vibration pushing block 8431, the vibration arc plate 844 and the vibration ball 845 are reset under the action of the spring instantly, the centrifugal force received by the knocking rod 8451 is large, the knocking rod 8451 stretches out the vibration ball 845, the knocking rod 8451 inside one vibration ball 845 is attached to the vibration transmission block 846, the knocking rod 8451 inside the other vibration ball 845 violently knocks the vibration transmission block 846, and then the auxiliary stirring rod 84 vibrates by itself.

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

1. The utility model provides a vertically place formula concrete mixing device, is including placing base (1) and churn (2), its characterized in that: the top of the placing base (1) is connected with the bottom of the mixing drum (2) in a sliding way through a sliding rod (3), the bottom of the mixing drum (2) is penetrated by the mixing roller (4) and a gap is arranged between the mixing drum and the mixing roller (4), the bottom end of the stirring roller (4) is fixedly arranged at the top of the placing base (1), the side surface of the part of the stirring roller (4) positioned in the stirring cylinder (2) is fixedly provided with a stirring blade (5), the stirring roller (4) comprises a fixed sleeve (41) and a movable roller (42), the top of the fixed sleeve (41) is penetrated by the movable roller (42) and is tightly attached with the movable roller (42), the bottom end of the movable roller (42) is connected with four groups of driving mechanisms (6), the top of the fixed sleeve (41) is fixedly penetrated with a clapboard (7), baffle (7) are fixed inside churn (2), stirring leaf (5) are kept away from the one end bottom of stirring roller (4) and are provided with supplementary rabbling mechanism (8).

2. A longitudinally disposed concrete mixing apparatus according to claim 1, wherein: the driving mechanism (6) comprises a driving plate (61), a driving push rod (62), a driving sleeve (63), a hemispherical driving sheet (64) and a driving block (65), one end of the driving plate (61) is fixed at the bottom of the movable roller (42), the bottom of the other end is attached to the driving push rod (62), the bottom end of the driving push rod (62) is fixed at the center of the concave side of the hemispherical driving sheet (64), the hemispherical driving sheet (64) is fixedly arranged at the bottom of the driving sleeve (63) and protrudes downwards, the top of the driving sleeve (63) is fixedly arranged in the mixing drum (2) and communicated with the inside of the mixing drum (2), the four groups of driving sleeves (63) and the driving blocks (65) are distributed on the top of the placing base (1) in an annular array shape, the centers of circles of the four driving sleeves (63) and the four driving blocks (65) are the same, and the tops of the driving blocks (65) are hemispherical.

3. A longitudinally disposed concrete mixing apparatus according to claim 1, wherein: the auxiliary stirring mechanism (8) comprises an auxiliary mounting block (81), an auxiliary stirring sheet (82), an auxiliary push plate (83) and an auxiliary stirring rod (84), the auxiliary mounting block (81) is fixedly arranged at the bottom of the stirring blade (5), the top end of the auxiliary stirring blade (82) is rotatably arranged at the bottom of the auxiliary mounting block (81), and the joint of the auxiliary stirring sheet (82) and the auxiliary mounting block (81) is tightly attached to the auxiliary mounting block (81), the top of the auxiliary stirring sheet (82) is arc-shaped and is connected with the inner wall of the auxiliary mounting block (81) through an elastic reset ball (85), one side of the auxiliary push plate (83) is arranged between the auxiliary stirring sheet (82) and the inner wall of the stirring cylinder (2), the other side is fixed in the stirring cylinder (2), and one side of the auxiliary stirring sheet (82) connected with the auxiliary push plate (83) is inwards sunken, one side of the auxiliary stirring sheet (82) far away from the auxiliary push plate (83) is fixed with one end of an auxiliary stirring rod (84).

4. A longitudinally placed concrete mixing device according to claim 3, wherein: one side of the auxiliary push plate (83) connected with the auxiliary stirring sheet (82) is arc-shaped, and a plurality of semicircular vibration grooves (821) are formed in the side, close to the auxiliary push plate (83), of the auxiliary stirring sheet (82) inwards.

5. A longitudinally placed concrete mixing device according to claim 3, wherein: one side of the elastic reset ball (85) close to the auxiliary stirring sheet (82) is in an opening shape, the top and the bottom of the elastic reset ball (85) are respectively hinged with one end of two negative pressure connecting rods (851), the other end of the two negative pressure connecting rods (851) are hinged with each other, one side of the joint of the two negative pressure connecting rods (851) is fixed with one end of a negative pressure pull rod (86), the other end of the negative pressure pull rod (86) is fixed with a negative pressure piston (822), the negative pressure piston (822) is tightly attached to the inner wall of a negative pressure cavity (823) arranged in the auxiliary stirring sheet (82), the negative pressure cavity (823) is communicated with a vibration cavity (841) arranged inside the auxiliary stirring rod (84), the vibration cavity (841) inner wall is attached to the spherical plug (842), the spherical plug (842) is fixed to one end of the vibration rod (843), and the other end of the vibration rod (843) is located outside the vibration cavity (841).

6. A longitudinally placed concrete mixing device according to claim 5, wherein: the top of the vibrating rod (843) is fixedly provided with a vibrating push block (8431), the top of the vibrating cavity (841) is rotationally connected with the center of the vibrating arc plate (844), the two ends of the vibration arc plate (844) are fixedly provided with vibration balls (845), one side of each vibration ball (845) far away from the vibration arc plate (844) is provided with a vibration transmission block (846), a gap is arranged between the vibration transmission block (846) and the vibration ball (845), the inner wall of the vibration ball (845) is connected with the knocking rod (8451) through a spring, one side of the vibration arc plate (844) close to the vibration rod (843) is hinged with a sharp-angle block (847), the other side is connected with the inner wall of the vibration cavity (841) through a spring, the sharp-angle block (847) is connected with the vibration arc plate (844) through a spring, and the distance between the tip of the sharp-angle block (847) and the vibration rod (843) is smaller than the distance between one end, far away from the vibration rod (843), of the vibration push block (8431) and the vibration rod (843).