CN113021634A

CN113021634A - Multi-cavity concrete mixing bin and numerical control concrete mixer thereof

Info

Publication number: CN113021634A
Application number: CN202110214838.0A
Authority: CN
Inventors: 王冬云; 黄明辉; 陈武; 吴小华; 叶文城; 廖瑞标
Original assignee: Fujian Xinda Machinery Co ltd
Current assignee: Fujian Xinda Machinery Co ltd
Priority date: 2021-02-25
Filing date: 2021-02-25
Publication date: 2021-06-25

Abstract

The invention discloses a numerical control concrete mixer which comprises a lower machine body, an assembly table and a numerical control table arranged on one side of the assembly table, wherein water storage assemblies are arranged in the lower machine body at equal intervals, a sieving assembly is arranged in the assembly table, the sieving assembly and a mixing cavity are mutually communicated through a conveying port, a water tank is arranged on one side of the lower machine body and is connected with the water storage assemblies, a discharge port communicated with the mixing cavity is further formed in the lower machine body, a liftable upper machine body is arranged on the numerical control table through a support column and is controlled by a second telescopic cylinder, a plurality of adsorption plates are arranged on the upper machine body, a plurality of adsorption plates are arranged on each adsorption plate, and an electromagnet column is arranged in each adsorption plate. When the melon seed pieces are added into concrete, the melon seed pieces are large in size, hardness and sharpness, so that the harder stirring blades need to be replaced for stirring, and the damage of the melon seed pieces to iron wire holes is avoided.

Description

Multi-cavity concrete mixing bin and numerical control concrete mixer thereof

Technical Field

The invention relates to the technical field of buildings, in particular to a multi-cavity concrete mixing bin and a numerical control concrete mixer thereof.

Background

A stirrer is a construction engineering machine and is mainly used for stirring building materials such as cement, sand and stone, various dry-mixed mortar and the like. This is a machine in which a shaft with blades rotates in a cylinder or tank to mix and stir a plurality of materials into a mixture or a suitable consistency.

With the development of space-time numerical control technology, various numerical control mixers are also available in the market, and the mixing speed is controlled by a program.

Most of existing numerical control mixers only have one mixing cavity, and mixing blades are fixed, so that the blades cannot be replaced according to concrete materials, efficiency is low, and discharging quality is affected.

Disclosure of Invention

The invention aims to solve the following defects in the prior art that most of existing numerical control mixers only have one mixing cavity, mixing blades are fixed, the blades cannot be replaced according to concrete materials, the efficiency is low, and the discharging quality is influenced.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a multicavity room concrete mixing storehouse, includes a plurality of stirring chambeies, the center department in stirring chamber has seted up the assembly chamber, just install rotatable rolling disc on the end lateral wall in stirring chamber, equidistant a plurality of fixture blocks that are the toper setting on the rolling disc, every the fixture block joint has detachable main cutter subassembly, the center department in stirring chamber has seted up the assembly chamber, the assembly intracavity is equipped with the ejection of compact subassembly of the ejection of compact of control concrete.

Preferably, the main cutter subassembly includes the assembly piece of joint on the joint piece, the butt joint hole has been seted up on the assembly piece, install magnet on the inside wall in butt joint hole, the scraper that is used for clean stirring intracavity lateral wall is installed to one side of assembly piece, the sub-cutter subassembly is installed to one side that the assembly piece deviates from the scraper.

Preferably, the sub-cutter assembly comprises a second connecting plate which is arranged on the assembling block and is vertically arranged, and a plurality of iron wire holes are formed in two sides of the second connecting plate.

Preferably, the sub-cutter assembly further comprises a plurality of first connecting plates which are installed on the assembling block and transversely arranged, and each first connecting plate is provided with a transversely arranged stirring blade.

Preferably, ejection of compact subassembly includes the loading board of horizontal installation on the assembly chamber, install two a plurality of movable rods through first telescoping cylinder on the loading board, every the other end of movable rod all rotates and is connected with the connecting block, install fan-shaped control panel that sets up on the connecting block.

The embodiment of the invention also provides a numerical control concrete mixer which comprises a lower machine body, an assembly table and a numerical control table arranged on one side of the assembly table, and is characterized in that water storage assemblies are arranged in the lower machine body at equal intervals, a sieving assembly is arranged in the assembly table, the sieving assembly and a stirring cavity are mutually communicated through a conveying port, a water tank is arranged on one side of the lower machine body and is connected with the water storage assemblies, a discharge port communicated with the stirring cavity is also formed in the lower machine body, the numerical control table is provided with a liftable upper machine body through a support column, the upper machine body is controlled by a second telescopic cylinder, a plurality of adsorption plates are arranged on the upper machine body, a plurality of circular grooves are formed in each adsorption plate, an electromagnet column is arranged in each circular groove, and a position limiting disc is arranged on the electromagnet column.

Preferably, the retaining subassembly includes a plurality of and stir chamber assorted catch basins, connect through the check valve between catch basin and the stirring chamber, every through intercommunication groove interconnect between the catch basin, and every the degree of depth of catch basin is different.

Preferably, the sieve moves the subassembly and includes a plurality ofly and stir chamber assorted recess, every all be connected with the sieve through the elastic cord in the recess, every through connecting rod interconnect between the sieve, be located both sides install the spring between the lateral wall of sieve and recess, still be equipped with the filter plate between sieve and the catch basin, be located the sieve bottom side still is equipped with drive assembly.

Preferably, the driving assembly comprises an installation block installed at the center of the sieve plate, a servo motor is installed in the installation block, and a sector block is installed on an output shaft of the servo motor.

Preferably, a return pipe is installed on one side of the water tank, the return pipe is made of transparent plastic, and one end of the return pipe is communicated with the delivery port.

Compared with the prior art, the invention has the beneficial effects that:

1. the assembly piece drives the scraper and rotates in the pivoted, and the scraper can be scraped the concrete on the stirring intracavity wall and increased the effect of stirring down on the one hand, and on the other hand can clean stirring intracavity wall when the stirring intracavity adds the clear water and wash, prevents that the coagulation piece from appearing on the inner wall, produces the damage to equipment.

2. The contact surface of the cutter with the iron wire hole and the second connecting plate of vertical setting and concrete is wider, increases the effect of stirring, and when the concrete began by the stirring, a large amount of iron wire holes can play the effect to the concrete cutting vortex, and then reach the effect of stirring.

3. The servo motor starts and drives the sector block to rotate through the output shaft, because the gravity center of the sector block is not on the center of a circle, the sector block drives the installation block and the sieve plate to move along the direction of the centrifugal force, the direction of the centrifugal force is continuously changed, the whole sieve plate is continuously moved left and right and fluctuates up and down, the vibration effect is played, incoming lime and yellow sand can be premixed before entering the stirring cavity, and therefore the stirring efficiency is increased, and more sufficient mixing is achieved.

4. When the backflow pipe is seen to flow out, the water in the water storage tank is indicated to be full and overflow, then the water is stopped to be poured into the water storage tank, clean water can be quantitatively added, the overflow of the water quantity can be effectively known and controlled, and the water saving effect is achieved.

5. When meetting to add the melon seed piece in the concrete, because melon seed piece volume and hardness and sharpness are all bigger to need to change harder stirring leaf and stir, avoid the melon seed piece to damage the iron wire hole.

Drawings

FIG. 1 is a schematic top view of a multi-chamber concrete mixing silo and its numerically controlled concrete mixer according to the present invention;

FIG. 2 is a schematic front view of a multi-chamber concrete mixing silo and a numerically controlled concrete mixer thereof according to the present invention;

FIG. 3 is a schematic front view of the sifting assembly;

FIG. 4 is a schematic front view of the assembly chamber;

FIG. 5 is a schematic front view of the adsorption plate;

fig. 6 is a partially enlarged schematic view of a in fig. 1.

In the figure: 1 lower machine body, 2 return pipes, 3 water storage tanks, 4 elastic bands, 5 assembly tables, 6 water tanks, 7 numerical control tables, 8 communicating tanks, 9 support columns, 10 sieve plates, 11 springs, 12 filter plates, 13 conveying ports, 14 stirring cavities, 15 control plates, 16 rotating disks, 17 assembly blocks, 18 first connecting plates, 19 stirring blades, 20 discharge ports, 21 installation blocks, 22 fan-shaped blocks, 23 assembly cavities, 24 bearing plates, 25 connecting blocks, 26 movable rods, 27 first telescopic cylinders, 28 adsorption plates, 29 upper machine body, 30 scrapers, 31 butt joint holes, 32 magnets, 33 second connecting plates, 34 iron wire holes, 35 limiting disks, 36 electromagnet columns and 37 circular grooves.

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.

Example one

Referring to fig. 1-6, a multi-cavity concrete mixing silo, which comprises a plurality of mixing cavities 14, and is characterized in that an assembly cavity 23 is formed in the center of each mixing cavity 14, a rotatable rotating disc 16 is mounted on the bottom side wall of each mixing cavity 14, a plurality of conical fixture blocks are arranged on the rotating disc 16 at equal intervals, each fixture block is connected with a detachable main cutter assembly in a clamping manner, each main cutter assembly comprises an assembly block 17 connected to the corresponding clamping block in a clamping manner, each assembly block 17 is provided with a butt joint hole 31, a magnet 32 is mounted on the inner side wall of each butt joint hole 31, a scraper 30 used for cleaning the inner side wall of each mixing cavity 14 is mounted on one side of each assembly block 17, a sub cutter assembly is mounted on the side, away from the scraper 30, of each assembly block 17, each clamping block is conical, each assembly block 17 is provided with a notch matched with the corresponding assembly block, so that the assembly blocks 17 are conveniently, the assembly block 17 drives the scraper 30 to rotate when rotating, on one hand, the scraper 30 can scrape off the concrete on the inner wall of the stirring chamber 14 to increase the stirring effect, on the other hand, when the stirring chamber 14 is added with clear water for cleaning, the inner wall of the stirring chamber 14 can be cleaned, the coagulation block on the inner wall is prevented, and the equipment is damaged.

The sub-cutter assembly is including installing at assembly block 17 and being the second connecting plate 33 of vertical setting, the both sides of second connecting plate 33 are equipped with a plurality of iron wire holes 34, assembly block 17 pivoted drives second connecting plate 33 simultaneously and rotates, thereby realize the stirring to the concrete, the second connecting plate 33 of vertical setting is wider with the contact surface of concrete, increase the effect of stirring, when the concrete begins by the stirring, a large amount of iron wire holes 34 can play the effect to the concrete cutting vortex, and then reach the effect of stirring.

The assembly chamber 23 has been seted up in the center department of stirring chamber 14, be equipped with the ejection of compact subassembly of the ejection of compact of control concrete ejection of compact in the assembly chamber 23, ejection of compact subassembly includes transversely installs loading board 24 on assembly chamber 23, install two a plurality of movable rod 26 through first telescoping cylinder 27 on the loading board 24, every movable rod 26's the other end all rotates and is connected with connecting block 25, install fan-shaped control panel 15 that sets up on the connecting block 25, utilize first telescoping cylinder 27 to drive movable rod 26 downstream when the needs ejection of compact, and make control panel 15 downstream, the last port of assembly chamber 23 is opened like this, the concrete just flows out from can following stirring chamber 14.

Further, a numerical control concrete mixer includes organism 1 down, mount table 5 and install the numerical control platform 7 in mount table 5 one side, equidistant being equipped with the retaining subassembly down in the organism 1, the retaining subassembly includes a plurality of and stirring chamber 14 assorted catch basin 3, connect through the check valve between catch basin 3 and the stirring chamber 14, through 8 interconnect in intercommunication groove between every catch basin 3, and the degree of depth of every catch basin 3 is different, can stir different concrete respectively in the three stirring chamber 14, consequently, the water yield that needs is different, the different water yield of different types of concrete storage of cooperation of degree of depth of catch basin 3, open the check valve when using, the rivers begin the stirring in the stirring chamber 14.

The assembly table 5 is internally provided with a screen moving assembly, the screen moving assembly comprises a plurality of grooves matched with the stirring cavity 14, each groove is internally connected with a screen plate 10 through an elastic band 4, the periphery of each screen plate 10 is provided with the elastic band which can form a containing space with the groove, yellow sand and lime are placed in the grooves, each screen plate 10 is connected with each other through a connecting rod, springs 11 are arranged between the screen plates 10 at two sides and the side walls of the grooves, a filter plate 12 is also arranged between each screen plate 10 and a conveying port 13, a driving assembly is also arranged at the bottom side of each screen plate 10 and comprises a mounting block 21 arranged at the center of each screen plate 10, a servo motor is arranged in each mounting block 21, a sector 22 is arranged on an output shaft of each servo motor, the servo motor is started to drive the sector 22 to rotate through the output shaft, the gravity center of the sector 22 is not on the center of a circle, the sector 22, the continuous change of the centrifugal force causes the whole sieve plate 10 to move left and right and fluctuate up and down continuously, playing a role of vibration, so that the incoming lime and yellow sand can be premixed before entering the stirring cavity 14, thereby increasing the stirring efficiency and more fully mixing.

And sieve and move and communicate each other through transfer port 13 between the chamber 14, lower body 1's one side is installed water tank 6, water tank 6 is connected with the retaining subassembly, back flow 2 is installed to one side of water tank 6, back flow 2 is made by transparent plastic, the one end and the catch basin 3 of back flow 2 communicate each other, and the port of back flow 2 one end and catch basin 3 upper end water tank 6 constantly toward the retaining subassembly in irritate water, when seeing that back flow 2 has rivers to go out, show that catch basin 3's water is full and has overflowed, then stop to irritate water toward the catch basin 3 in.

Still be equipped with the discharge gate 20 that is linked together with stirring chamber 14 on the organism 1 down, numerical control platform 7 installs the last organism 29 of liftable through support column 9, goes up organism 29 and is controlled by the flexible cylinder of second, is equipped with a plurality of adsorption plates 28 on going up organism 29, is equipped with on every adsorption plate 28 and has seted up a plurality of circular slots 37, all installs electromagnetism post 36 in every circular slot 37, installs the spacing dish 35 of position on the electromagnetism post 36, utilizes numerical control platform 7 can control the switch of structure in the whole equipment.

Example two

Different from the first embodiment, the sub-cutter assembly further comprises a plurality of first connecting plates 18 which are arranged on the assembling block 17 and are arranged transversely, each first connecting plate 18 is provided with a transversely arranged stirring blade 19, the thickness and rigidity of each stirring blade 19 are far larger than those of each iron wire hole 34, each iron wire hole 34 is mainly used for stirring yellow sand and lime, when a melon seed sheet is added into concrete, because the volume and hardness and sharpness of the melon seed sheet are larger, the harder stirring blades 19 need to be replaced for stirring, the damage of the iron wire holes 34 caused by the melon seed sheets is avoided, the upper magnet body 29 is moved downwards by using the control console 7 during replacement, then the electric columns 36 are electrified to generate magnetism to adsorb the magnet 32, then the upper body 29 is controlled to move upwards, at the moment, after another sub-cutter assembly is replaced, the upper body 29 is moved downwards, and the assembling block 17 is clamped on the clamping block, the power is off so that the electromagnet posts 36 are not magnetic and fall out of the mating holes 31, completing the installation.

When cleaning, clear water is introduced into the stirring cavity 14, and then the rotating disc 16 is started to drive the assembling block 17 and the scraper 30 to rotate, so that water flow is driven to move, and the purpose of cleaning is achieved.

In the invention, ingredients are put into an elastic band 4, then the incoming lime and yellow sand are premixed before entering a stirring cavity 14 by using a sieving assembly, so that the stirring efficiency is increased and the lime and the yellow sand are more fully mixed, the lime and the yellow sand enter the stirring cavity 14 through a filter plate 12, clear water is put into the stirring cavity 14 through a water tank 6, then a rotating disc 16 is used for rotating to drive a cutter assembly to rotate so as to realize the stirring purpose, and finally the stirred concrete is discharged through an assembly cavity 23 and a discharge hole 20. (the numerical control table 7 belongs to the prior art, and the detailed connection relation and working principle are not described in detail)

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a multi-chamber concrete mixing storehouse, includes a plurality of stirring chambeies (14), its characterized in that, the center department of stirring chamber (14) has seted up assembly chamber (23), just install rotatable rolling disc (16) on the end lateral wall of stirring chamber (14), equidistant a plurality of fixture blocks that are the toper setting, every on rolling disc (16) the fixture block joint has detachable main cutter subassembly, assembly chamber (23) have been seted up to the center department of stirring chamber (14), be equipped with the ejection of compact subassembly of the control concrete ejection of compact in assembly chamber (23).

2. A multi-chamber concrete mixing silo according to claim 1, wherein the main cutter assembly comprises an assembly block (17) which is connected with the joint block in a clamping manner, the assembly block (17) is provided with a butt joint hole (31), the inner side wall of the butt joint hole (31) is provided with a magnet (32), one side of the assembly block (17) is provided with a scraper (30) for cleaning the inner side wall of the mixing chamber (14), and one side of the assembly block (17) which is far away from the scraper (30) is provided with a sub cutter assembly.

3. A multi-chamber concrete mixing silo according to claim 2, characterized in that the sub-cutter assemblies comprise a second connecting plate (33) mounted on the assembly block (17) and arranged vertically, the second connecting plate (33) being provided on both sides with a plurality of wire holes (34).

4. A multi-chamber concrete mixing silo according to claim 2 wherein the sub-cutter assembly further includes a plurality of transversely disposed first connecting plates (18) mounted on the mounting block (17), each first connecting plate (18) having transversely disposed mixing blades (19) mounted thereon.

5. A multi-chamber concrete mixing silo according to claim 1, characterized in that the discharging assembly comprises a bearing plate (24) transversely installed on the assembly chamber (23), two or more movable rods (26) are installed on the bearing plate (24) through a first telescopic cylinder (27), the other end of each movable rod (26) is rotatably connected with a connecting block (25), and a fan-shaped control plate (15) is installed on the connecting block (25).

6. A numerical control concrete mixer with a multi-chamber concrete mixing bin according to any one of claims 1 to 5, characterized by comprising a lower machine body (1), an assembly table (5) and a numerical control table (7) installed on one side of the assembly table (5), wherein water storage components are arranged in the lower machine body (1) at equal intervals, a sieving component is arranged in the assembly table (5), the sieving component and a mixing chamber (14) are communicated with each other through a conveying port (13), a water tank (6) is installed on one side of the lower machine body (1), the water tank (6) is connected with the water storage components, a discharge port (20) communicated with the mixing chamber (14) is further arranged on the lower machine body (1), a liftable upper machine body (29) is installed on the numerical control table (7) through a support column (9), and the upper machine body (29) is controlled by a second telescopic cylinder, go up and be equipped with a plurality of adsorption plates (28) on organism (29), every be equipped with on adsorption plate (28) and seted up a plurality of circular slots (37), every all install electromagnetism iron post (36) in circular slot (37), install spacing dish (35) of position on electromagnetism iron post (36).

7. A numerically controlled concrete mixer according to claim 6, characterized in that said water storage means comprise a plurality of reservoirs (3) matching said mixing chamber (14), said reservoirs (3) and mixing chamber (14) being connected by means of one-way valves, each reservoir (3) being connected to each other by means of a communication channel (8), and each reservoir (3) having a different depth.

8. A numerical control concrete mixer according to claim 6, characterized in that the sifting assembly comprises a plurality of grooves matched with the mixing chamber (14), each groove is connected with a sieve plate (10) through an elastic band (4), each sieve plate (10) is connected with each other through a connecting rod, springs (11) are arranged between the sieve plates (10) at both sides and the side walls of the groove, a filter plate (12) is arranged between the sieve plates (10) and the water storage tank (3), and a driving assembly is arranged at the bottom side of the sieve plates (10).

9. A numerically controlled concrete mixer according to claim 6, wherein said drive assembly comprises a mounting block (21) mounted in the centre of the screening deck (10), said mounting block (21) having a servo motor mounted therein, the output shaft of said servo motor having a sector (22) mounted thereon.

10. A numerically controlled concrete mixer according to claim 6, characterized in that a return pipe (2) is mounted on one side of said water tank (6), said return pipe (2) being made of transparent plastic, one end of said return pipe (2) being in communication with said delivery port (13).