CN112546919A - Mixing system for building material production and mixing process thereof - Google Patents

Abstract

The invention discloses a mixing system for building material production and a mixing process thereof, wherein the mixing system for building material production comprises a support frame, an oscillation system, an adjusting system, a mixing barrel, a rotating system, a closed system, a mixing system, a cleaning system and a collecting box, the support frame is vertically arranged on a horizontal plane, the oscillation system is arranged on the support frame, the adjusting system is arranged at the side of the support frame, the rotating system is arranged on the adjusting system, the closed system is welded at the bottom of the mixing barrel, the mixing system is arranged on the closed system, the cleaning system is arranged at one side of the rotating system, the collecting box is arranged at the other side of the rotating system, the invention provides the mixing system for building material production and the mixing process thereof, firstly, the raw materials are subjected to oscillation screening, the agglomerated raw materials are injected into a device in an oscillation and crushed powder manner, the mixing of the building materials is uniform, and the raw materials tightly attached to the inner wall of the mixing cylinder can be mixed by moving the mixing cylinder.

Description

Mixing system for building material production and mixing process thereof

Technical Field

The invention relates to the technical field of building material production, in particular to a mixing system for building material production and a mixing process thereof.

Background

Construction materials are various materials used in construction works. The building materials are various in types, and are roughly divided into: inorganic materials including metallic materials (including ferrous and non-ferrous) and non-metallic materials (such as natural stone, burnt earth products, cement, concrete, silicate products, etc.); organic materials including plant materials, synthetic polymer materials (including plastics, paints, adhesives) and asphalt materials; composite materials, including asphalt concrete, polymer concrete, etc., are generally made by compounding inorganic non-metallic materials with organic materials.

The invention discloses a mixing system for producing building materials, which comprises a device main frame, wherein a mixing barrel is arranged on the inner side of the device main frame, a cross rod is arranged in the middle of an inner cavity of the mixing barrel, a scraping rod is welded on the top surface of the cross rod, a mixing rod is welded on the bottom surface of the cross rod, stirring blades are arranged at one end of the inner cavity of the mixing barrel, a rotating shaft is mounted on the bottom surface of the device main frame, the bottom of the rotating shaft is connected with a supporting base, a supporting column is welded on one end of the top surface of the device main frame, and a feeding hopper is welded on the top surface of the supporting column. According to the invention, the material mixing effect of the material mixing barrel during rotation can be improved through the material mixing rod arranged in the material mixing barrel, so that the materials are mixed more uniformly, the scraping rod arranged on the top surface of the cross rod can clean the materials adhered to the inner wall of the material mixing barrel, so that no residue is left when the material mixing barrel discharges materials, the sliding seat is pulled by the hydraulic cylinder, the material mixing barrel is inclined towards one side of the stirring blade, the material discharging is convenient, and the use is convenient.

When the raw materials are added, the raw materials are not subjected to vibration screening, the mixed materials of the building materials are not uniform when the agglomerated raw materials are injected into the device, so that the agglomerated raw materials cannot be separately mixed with other raw materials, meanwhile, the mixing system cannot move, and the raw materials tightly attached to the inner wall of the mixing barrel are difficult to mix.

Disclosure of Invention

The embodiment of the invention provides a mixing system for building material production and a mixing process thereof, which aim to solve the technical problems.

The embodiment of the invention adopts the following technical scheme: the utility model provides a compounding system is used in building material production, includes support frame, shock system, governing system, mixing cylinder, rotational system, closed system, compounding system, cleaning system and collection workbin, the vertical setting of support frame is on the horizontal plane, shock system installs on the support frame, governing system sets up the side at the support frame, rotational system sets up on governing system, closed system welds the bottom at mixing cylinder, mixing system installs on closed system, cleaning system sets up the one side at rotational system, the collection workbin sets up the opposite side at rotational system.

Further, the oscillation system comprises a supporting seat, an oscillation hole frame, a conveying belt, a limiting plate, two oscillation assemblies and four oscillation plates, the supporting seat is arranged at the top of the supporting frame, the conveying belt is arranged at the top of the supporting seat, the limiting plate is arranged on the supporting seat and is positioned at the discharge end of the conveying belt, four connecting blocks are welded on the supporting seat and the oscillation hole frame, one ends of the four oscillation plates are respectively hinged on the four connecting blocks on the supporting seat, the oscillation hole frame is arranged at the other ends of the four oscillation plates through the four connecting blocks on the oscillation hole frame, the two oscillation assemblies are respectively and symmetrically arranged on the supporting seat, each oscillation assembly comprises an oscillation motor, an oscillation rotating plate and an oscillation connecting rod, the oscillation motor is arranged at the top of the supporting seat, a main shaft of the oscillation motor penetrates through the supporting seat, one end of the oscillation rotating plate is, the one end of shaking the connecting rod articulates the other end at shaking the rotor plate, it is connected with two shaking boards of one side of supporting seat to shake the connecting rod, the other end that shakes the connecting rod articulates on the supporting seat.

Further, governing system is including adjusting seat, accommodate motor, regulation snap ring, bearing frame and two regulation dwangs, adjust the seat setting at the side of support frame, two the one end of adjusting the dwang is rotated respectively and is installed on two inside walls of adjusting the seat, accommodate motor sets up on adjusting the seat and accommodate motor's main shaft runs through the one end of adjusting the seat and connecting at one of them regulation dwang, adjust the snap ring welding at the other end of two regulation dwangs, the both ends of bearing the frame weld respectively on two regulation dwangs.

Further, the mixing cylinder is installed in the adjusting snap ring and is in running fit with the adjusting snap ring, four welding curved plates are arranged in the mixing cylinder, the welding curved plates are welded on the inner side wall of the mixing cylinder at equal angles in pairs respectively, a feed opening is formed in the bottom of the mixing cylinder, two outer rings are welded on the outer side of the mixing cylinder, and tooth grooves are formed in the outer rings.

Further, the rotational system includes four runner assemblies, four the runner assembly is two bisymmetry settings respectively on bearing the frame, every the runner assembly all includes fixing base, rotation motor, rolling gear and fixed cardboard, the fixing base welding is on bearing the frame, fixed cardboard welding is on bearing the frame, the rolling gear rotates to be installed in fixed cardboard and rolling gear meshes with the tooth's socket on the outer loop mutually, the tail end of rotation motor is installed on the fixing base and the main shaft of rotation motor runs through fixed cardboard and connects on rolling gear.

Furthermore, the closing system comprises a closing cover, a closing seat, a closing opening and a buckle, the closing seat is welded at the bottom of the mixing barrel, the closing opening is welded on the closing seat, the closing cover is hinged on the side wall of the closing opening, the buckle is hinged on the side wall of the closing opening and is located right opposite to the closing cover, and the closing cover is provided with a fixing head matched with the buckle.

Further, the compounding system includes compounding motor, compounding rolling disc and four material mixing plates, the compounding motor sets up and the main shaft of compounding motor runs through the closed lid on the closed lid, the compounding rolling disc is installed on the main shaft of compounding motor and compounding rolling disc and closed lid normal running fit, four the welding of angle such as two liang respectively of compounding board is on the compounding rolling disc.

Further, cleaning system includes support, flexible electric jar, water tank, suction pump, water pipe and two-way shower nozzle, the side at the regulation seat is installed to the support, the trailing end connection of flexible electric jar is on the support, the water tank sets up the side at the support, the one end of water pipe is connected on the water tank, the suction pump sets up on the water pipe, the water pipe is installed and is served in the flexible of flexible electric jar, the other end at the water pipe is installed to two-way shower nozzle.

A mixing process of a mixing system for producing building materials, which comprises the steps of,

the first step is as follows: the vibration system is characterized in that a vibration motor drives a vibration connecting rod to move, so that a vibration plate is shaken to drive a vibration hole frame to vibrate, the vibration hole frame vibrates to vibrate and separate raw materials, other devices are convenient to mix the building materials, the building materials are uniformly mixed, and then a conveying belt operates to drive the raw materials to move, throw the raw materials into a mixing barrel; before the operation starts, raw materials are added into a vibration hole frame, a vibration motor starts to operate to drive a vibration rotating plate to rotate, the vibration rotating plate drives a vibration connecting rod to rock, so that the vibration plate is driven to rock on a supporting seat, the vibration plate drives the vibration hole frame to vibrate, the raw materials are vibrated and separated and fall onto a conveying belt, a mixing system is convenient to mix the building materials, and then the raw materials enter a mixing barrel along with the conveying belt to be mixed;

the second step is that: the adjusting system drives the adjusting clamp ring and the bearing frame to rotate by the adjusting motor to drive the mixing cylinder to rotate, so that the angle of the mixing cylinder is adjusted, raw materials are conveniently added and taken, and meanwhile, when the mixing cylinder is driven to rotate by the rotating system and the mixing system operates, the angle of the mixing cylinder is adjusted, and the mixing uniformity of the raw materials is improved; when a batch of raw materials enter the mixing barrel along with the conveying belt, the adjusting motor drives the two adjusting rotating rods, the adjusting clamp ring and the bearing frame to rotate, the angle of the mixing barrel is adjusted, after the mixing is finished, the adjusting motor drives the adjusting clamp ring to align the bottom of the mixing barrel to the material collecting box for discharging, and then the barrel opening of the mixing barrel is adjusted to align the cleaning system for cleaning;

the third step: the inner side wall of the mixing cylinder is provided with four welding curved plates welded at equal angles in pairs, tooth sockets on the outer ring are meshed with a rotating system, the mixing cylinder can be driven by the rotating system to rotate on the bearing frame, when building materials are mixed, the mixing cylinder rotates along with the rotating system, the four welding curved plates drive the internal building materials to carry out vortex type mixing, the building materials are stirred to the middle and the bottom while the external building materials are mixed, and meanwhile, the mixing cylinder is matched with the mixing system to uniformly mix the building materials, so that the mixing effect of the building materials is improved;

the fourth step: the rotating system drives a rotating gear to rotate by a rotating motor, and the rotating gear is meshed with a tooth socket of an outer ring, so that the outer ring drives a mixing cylinder to rotate, and a welding curved plate in the mixing cylinder mixes building materials; when building materials enter the mixing cylinder and the bearing frame are adjusted in angle, the rotating motor starts to drive the rotating gear to rotate, the mixing cylinder is driven by the outer ring to rotate on the bearing frame and the outer ring, the mixing cylinder is matched with the mixing system to uniformly mix the building materials, and when the building materials are cleaned, the rotating motor drives the mixing cylinder to rotate and is matched with the cleaning system to clean the mixing cylinder;

the fifth step: the closing system is composed of two important parts, namely a buckle and a fixing head, the fixing head is clamped on the buckle by moving the closing cover, the closing cover is sealed at a closing opening, the fixing head is taken out of the buckle, the closing cover is opened, and the building materials are conveniently discharged; before the building materials are injected into the mixing cylinder, the closed cover is covered on the closed opening, then the fixing head on the closed cover is clamped on the buckle, the closed cover is sealed at the closed opening, the building materials are prevented from leaking, after mixing is finished, the adjusting system drives the bottom of the mixing cylinder to face the material collecting box, the fixing head is pulled out from the buckle, the closed cover is opened, and the building materials flow into the material collecting box from the closed opening;

and a sixth step: the material mixing system is characterized in that a material mixing motor drives a material mixing rotating disc to drive four material mixing plates to mix the building materials at the bottom in a material mixing cylinder, the material mixing rotating disc is matched with four welding curved plates, and the building materials which cannot be contacted with the welding curved plates are mixed; when the rotating motor drives the rotating gear to drive the mixing cylinder to rotate, the mixing motor drives the mixing plates to rotate, the mixing plates mix the building materials at the middle and the bottom, and the curved plates are welded to mix the building materials at the outer sides, so that the building materials are completely mixed;

the seventh step: the cleaning system is characterized in that water in a water tank is cleaned by a water pump through a bidirectional nozzle to clean the inner wall of a mixing cylinder, and then the bidirectional nozzle is driven by the operation of a telescopic electric cylinder to move in the mixing cylinder to clean the mixing cylinder; the adjusting system aims at the flexible end of flexible electric jar with the nozzle of a compounding section of thick bamboo, and flexible electric jar drives two-way shower nozzle and removes to compounding section of thick bamboo nozzle department, and on the inner wall of a compounding section of thick bamboo was sprayed water from two-way shower nozzle to the suction pump drive afterwards, the rotation motor drive compounding section of thick bamboo rotated, and with two-way shower nozzle cooperation, washes in the compounding section of thick bamboo.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

firstly, the oscillation system is characterized in that an oscillation motor drives an oscillation connecting rod to move, so that an oscillation plate is shaken to drive an oscillation hole frame to oscillate, the oscillation hole frame oscillates to separate raw materials, other devices are convenient to mix the building materials, the building materials are uniformly mixed, and then a conveying belt operates to drive the raw materials to move, throw the raw materials into a mixing barrel; before the work begins, add the raw materials and get into and vibrate the downthehole frame, vibrate the motor and begin to function, the drive vibrates the rotor plate and rotates, vibrates the rotor plate and drives and vibrate the connecting rod and rock to the drive vibrates the board and rocks on the supporting seat, vibrates the board and moves and vibrate the downthehole frame vibrations, makes the raw materials vibrate the separation and fall into on the conveyer belt, and the compounding system of being convenient for mixes building material, carries out the compounding in the raw materials gets into the compounding section of thick bamboo along with the conveyer belt afterwards.

The adjusting system drives the adjusting clamp ring and the bearing frame to rotate by the adjusting motor to drive the mixing cylinder to rotate, so that the angle of the mixing cylinder is adjusted, raw materials are added and taken conveniently, and meanwhile, when the mixing cylinder drives the rotating system and the mixing system to operate, the angle of the mixing cylinder is adjusted, and the mixing uniformity of the raw materials is improved; when a batch of raw materials enter the mixing barrel along with the conveying belt, the adjusting motor drives the two adjusting rotating rods, the adjusting clamping ring and the bearing frame to rotate, the angle of the mixing barrel is adjusted, after the mixing is finished, the adjusting motor drives the adjusting clamping ring to align the bottom of the mixing barrel to the material collecting box, the discharging is carried out, and then the barrel opening of the mixing barrel is adjusted to align the cleaning system for cleaning.

Thirdly, the rotating system of the invention drives the rotating gear to rotate by the rotating motor, the rotating gear is meshed with the tooth socket of the outer ring, thereby driving the mixing cylinder to rotate through the outer ring, and leading the welding curved plate inside the mixing cylinder to mix the building materials; building material gets into mixing barrel and bears the frame when adjusting the angle, rotates the motor and begins to drive the running gear and rotate, drives mixing barrel through the outer loop and rotates on bearing frame and outer loop, cooperatees with mixing system and mixes building material misce bene, improves the compounding effect to building material, when wasing, rotates motor drive mixing barrel and rotates, cooperatees with cleaning system and washs mixing barrel.

Fourthly, the closing system is formed by two important parts, namely a buckle and a fixing head, the fixing head is clamped on the buckle by moving the closing cover, the closing cover is sealed at the closing opening, the fixing head is taken out of the buckle, and the closing cover is opened, so that the building materials can be conveniently discharged; before the building material is injected into the mixing cylinder, the closed cover is covered on the closed opening, then the fixing head on the closed cover is clamped on the buckle, the closed cover is sealed at the closed opening, the building material is prevented from leaking, after the mixing is finished, the adjusting system drives the bottom of the mixing cylinder to face the material collecting box, the fixing head is pulled out from the buckle, the closed cover is opened, and the building material flows into the material collecting box from the closed opening.

The cleaning system cleans the inner wall of the mixing cylinder by water in the water tank through the bidirectional spray head by the water pump, and then the bidirectional spray head is driven to move in the mixing cylinder by the operation of the telescopic electric cylinder to clean the mixing cylinder; the adjusting system aims at the flexible end of flexible electric jar with the nozzle of a compounding section of thick bamboo, and flexible electric jar drives two-way shower nozzle and removes to compounding section of thick bamboo nozzle department, and on the inner wall of a compounding section of thick bamboo was sprayed water from two-way shower nozzle to the suction pump drive afterwards, the rotation motor drive compounding section of thick bamboo rotated, and with two-way shower nozzle cooperation, washes in the compounding section of thick bamboo.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a first perspective view of the present invention;

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

FIG. 3 is a schematic perspective view of an oscillating system according to the present invention;

FIG. 4 is a schematic perspective view of the adjustment system of the present invention;

FIG. 5 is a schematic perspective view of a mixing bowl of the present invention;

FIG. 6 is a schematic perspective view of the rotational system of the present invention;

FIG. 7 is a partial perspective view of the present invention;

FIG. 8 is a schematic perspective view of a compounding system of the present invention;

fig. 9 is a schematic perspective view of the washing device of the present invention.

Reference numerals

The device comprises a support frame 1, an oscillating system 2, an adjusting system 3, a mixing barrel 4, a rotating system 5, a closing system 6, a mixing system 7, a cleaning system 8, a material collecting box 11, a support seat 21, an oscillating hole frame 22, a conveying belt 23, a limiting plate 24, an oscillating assembly 25, an oscillating plate 26, a connecting block 27, an oscillating motor 28, an oscillating rotating plate 29, an oscillating connecting rod 291, an adjusting seat 31, an adjusting motor 32, an adjusting clamping ring 33, a bearing frame 34, an adjusting rotating rod 35, a welding curved plate 41, an outer ring 42, a rotating assembly 51, a fixed seat 52, a rotating motor 53, a rotating gear 54, a fixed clamping plate 55, a closing cover 61, a closing seat 62, a closing port 63, a buckle 64, a fixed head 65, a mixing motor 71, a mixing rotating disc 72, a mixing plate 73, a support 81, a telescopic electric cylinder 82, a water tank 83, a water suction pump.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. 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.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 9, an embodiment of the present invention provides a mixing system for building material production and a mixing process thereof, including a support frame 1, an oscillation system 2, an adjusting system 3, a mixing drum 4, a rotating system 5, a closed system 6, a mixing system 7, a cleaning system 8, and a material collecting box 11, where the support frame 1 is vertically arranged on a horizontal plane, the oscillation system 2 is installed on the support frame 1, the adjusting system 3 is arranged at a side of the support frame 1, the rotating system 5 is arranged on the adjusting system 3, the closed system 6 is welded at a bottom of the mixing drum 4, the mixing system 7 is installed on the closed system 6, the cleaning system 8 is arranged at one side of the rotating system 5, and the material collecting box 11 is arranged at the other side of the rotating system 5.

Referring to fig. 3, the oscillation system 2 includes a supporting seat 21, an oscillation hole frame 22, a conveying belt 23, a limiting plate 24, two oscillation assemblies 25 and four oscillation plates 26, the supporting seat 21 is installed at the top of the supporting frame 1, the conveying belt 23 is installed at the top of the supporting seat 21, the limiting plate 24 is disposed on the supporting seat 21 and located at the discharge end of the conveying belt 23, four connecting blocks 27 are welded on the supporting seat 21 and the oscillation hole frame 22, one end of each of the four oscillation plates 26 is hinged to the four connecting blocks 27 on the supporting seat 21, the oscillation hole frame 22 is installed at the other end of each of the four oscillation plates 26 through the four connecting blocks 27 on the oscillation hole frame 22, the two oscillation assemblies 25 are symmetrically installed on the supporting seat 21 respectively, each of the oscillation assemblies 25 includes an oscillation motor 28, an oscillation rotating plate 29 and an oscillation connecting rod 291, the oscillation motor 28 is installed at the top of the supporting seat 21 and the main shaft, one end of the oscillating rotating plate 29 is mounted on the main shaft of the oscillating motor 28, one end of the oscillating connecting rod 291 is hinged to the other end of the oscillating rotating plate 29, the oscillating connecting rod 291 is connected with the two oscillating plates 26 on one side of the supporting seat 21, and the other end of the oscillating connecting rod 291 is hinged to the supporting seat 21; the oscillation system 2 is driven by an oscillation motor 28 to move an oscillation connecting rod 291, so that an oscillation plate 26 is shaken to drive an oscillation hole frame 22 to oscillate, the oscillation hole frame 22 oscillates and separates raw materials, other devices are convenient to mix the building materials, the building materials are uniformly mixed, and then a conveying belt 23 operates to drive the raw materials to move, and the raw materials are thrown into a mixing barrel 4; before the work begins, add the raw materials and get into in shaking hole frame 22, it begins the function to shake motor 28, the drive is shaken rotating plate 29 and is rotated, it shakes connecting rod 291 to shake rotating plate 29 and drive, thereby it shakes to shake board 26 and rocks on supporting seat 21 to drive, shake board 26 and drive and shake hole frame 22 vibrations, make the raw materials shake the separation and fall into conveyer belt 23 on, the compounding system 7 of being convenient for mixes building material, the raw materials carries out the compounding in getting into mixing barrel 4 along with conveyer belt 23 afterwards.

Referring to fig. 4, the adjusting system 3 includes an adjusting seat 31, an adjusting motor 32, an adjusting snap ring 33, a bearing frame 34 and two adjusting rotating rods 35, the adjusting seat 31 is disposed beside the supporting frame 1, one end of each of the two adjusting rotating rods 35 is rotatably mounted on two inner side walls of the adjusting seat 31, the adjusting motor 32 is disposed on the adjusting seat 31, a main shaft of the adjusting motor 32 penetrates through the adjusting seat 31 and is connected to one end of one of the adjusting rotating rods 35, the adjusting snap ring 33 is welded to the other end of each of the two adjusting rotating rods 35, and two ends of the bearing frame 34 are welded to the two adjusting rotating rods 35; the adjusting system 3 drives the adjusting clamp ring 33 and the bearing frame 34 to rotate by the adjusting motor 32 to drive the mixing cylinder 4 to rotate, so that the angle of the mixing cylinder 4 is adjusted, raw materials are added and taken conveniently, and meanwhile, when the mixing cylinder 4 is driven to rotate by the rotating system 5 and the mixing system 7 operates, the angle of the mixing cylinder 4 is adjusted, so that the mixing uniformity of the raw materials is improved; when a batch of raw materials enter the mixing cylinder 4 along with the conveyer belt 23, the adjusting motor 32 drives the two adjusting rotating rods 35, the adjusting clamping ring 33 and the bearing frame 34 to rotate, the angle of the mixing cylinder 4 is adjusted, after mixing is finished, the adjusting motor 32 drives the adjusting clamping ring 33 to align the bottom of the mixing cylinder 4 to the material collecting box 11, discharging is carried out, then the cylinder opening of the mixing cylinder 4 is adjusted to align the cleaning system 8, and cleaning is carried out.

Referring to fig. 5, the mixing cylinder 4 is installed in the adjusting snap ring 33, the mixing cylinder 4 is rotationally matched with the adjusting snap ring 33, four welding curved plates 41 are arranged in the mixing cylinder 4, the four welding curved plates 41 are respectively welded on the inner side wall of the mixing cylinder 4 at equal angles in pairs, a feed opening is arranged at the bottom of the mixing cylinder 4, two outer rings 42 are welded on the outer side of the mixing cylinder 4, and tooth grooves are formed in the outer rings 42; be equipped with four welding bent plates 41 of angle welding such as two liang on the 4 inside walls of compounding section of thick bamboo, tooth's socket on the outer loop 42 meshes with rotational system 5 mutually, can make compounding section of thick bamboo 4 rotate on bearing frame 34 under rotational system 5 drives, when carrying out the compounding to building material, compounding section of thick bamboo 4 rotates along with rotational system 5, four welding bent plates 41 drive inside building material and carry out the vortex formula compounding, stir building material to centre and bottom when mixing to outside building material, it is even to cooperate with compounding system 7 to carry out the compounding to building material simultaneously, improve the compounding effect to building material.

Referring to fig. 6, the rotating system 5 includes four rotating assemblies 51, the four rotating assemblies 51 are respectively arranged on the carrier 34 in a pairwise symmetry manner, each rotating assembly 51 includes a fixed seat 52, a rotating motor 53, a rotating gear 54 and a fixed clamping plate 55, the fixed seat 52 is welded on the carrier 34, the fixed clamping plate 55 is welded on the carrier 34, the rotating gear 54 is rotatably installed in the fixed clamping plate 55, the rotating gear 54 is engaged with a tooth groove on the outer ring 42, a tail end of the rotating motor 53 is installed on the fixed seat 52, and a main shaft of the rotating motor 53 penetrates through the fixed clamping plate 55 and is connected to the rotating gear 54; the rotating system 5 drives the rotating gear 54 to rotate by the rotating motor 53, the rotating gear 54 is meshed with the tooth grooves of the outer ring 42, so that the mixing cylinder 4 is driven to rotate by the outer ring 42, and the welding curved plate 41 in the mixing cylinder 4 mixes the building materials; building material gets into compounding section of thick bamboo 4 and bear 34 when adjusting the angle, rotation motor 53 begins to drive the rotation gear 54 and rotates, drives compounding section of thick bamboo 4 through outer loop 42 and rotates on bearing 34 and outer loop 42, cooperatees with mixing system 7 and mixes building material misce bene, when wasing, rotation motor 53 drives compounding section of thick bamboo 4 and rotates, cooperatees with cleaning system 8 and washs compounding section of thick bamboo 4, with the sanitization of compounding section of thick bamboo 4, improve clean effect.

Referring to fig. 7, the closing system 6 comprises a closing cover 61, a closing seat 62, a closing opening 63 and a buckle 64, wherein the closing seat 62 is welded at the bottom of the mixing bowl 4, the closing opening 63 is welded on the closing seat 62, the closing cover 61 is hinged on the side wall of the closing opening 63, the buckle 64 is hinged on the side wall of the closing opening 63 and is positioned right opposite to the closing cover 61, and the closing cover 61 is provided with a fixing head 65 matched with the buckle 64; the closing system 6 comprises two important parts, namely a buckle 64 and a fixing head 65, the fixing head 65 is clamped on the buckle 64 by moving the closing cover 61, the closing cover 61 is sealed at the closing opening 63, the fixing head 65 is taken out of the buckle 64, the closing cover 61 is opened, and the building materials are conveniently discharged; before the building material is injected into the mixing cylinder 4, the closing cover 61 is covered on the closing opening 63, then the fixing head 65 on the closing cover 61 is clamped on the clamping buckle 64, the closing cover 61 is sealed at the closing opening 63, the building material is prevented from leaking, after the mixing is finished, the adjusting system 3 drives the bottom of the mixing cylinder 4 to face the material collecting box 11, the fixing head 65 is drawn out from the clamping buckle 64, the closing cover 61 is opened, and the building material flows into the material collecting box 11 from the closing opening 63.

Referring to fig. 8, the mixing system 7 includes a mixing motor 71, a mixing rotating disc 72 and four mixing plates 73, the mixing motor 71 is disposed on the closing cover 61, a main shaft of the mixing motor 71 penetrates through the closing cover 61, the mixing rotating disc 72 is mounted on the main shaft of the mixing motor 71, the mixing rotating disc 72 is rotatably matched with the closing cover 61, and the four mixing plates 73 are respectively welded on the mixing rotating disc 72 at equal angles in pairs; the material mixing system 7 is characterized in that a material mixing motor 71 drives a material mixing rotating disc 72 to drive four material mixing plates 73 to mix the building materials at the bottom in the material mixing cylinder 4, and the material mixing rotating disc is matched with four welding curved plates 41 to mix the building materials which cannot be contacted with the welding curved plates 41; when the rotating motor 53 drives the rotating gear 54 to drive the mixing cylinder 4 to rotate, the mixing motor 71 drives the mixing plate 73 to rotate, the mixing plate 73 mixes the middle and bottom building materials, and the welding curved plate 41 mixes the outer building materials, so that the building materials are completely mixed.

Referring to fig. 9, the cleaning system 8 includes a bracket 81, a telescopic electric cylinder 82, a water tank 83, a water pump 84, a water pipe 85 and a bidirectional nozzle 86, the bracket 81 is installed at a side of the adjusting seat 31, a tail end of the telescopic electric cylinder 82 is connected to the bracket 81, the water tank 83 is installed at a side of the bracket 81, one end of the water pipe 85 is connected to the water tank 83, the water pump 84 is installed on the water pipe 85, the water pipe 85 is installed at a telescopic end of the telescopic electric cylinder 82, and the bidirectional nozzle 86 is installed at the other end of the water pipe 85; the cleaning system 8 is characterized in that a water pump 84 cleans the inner wall of the mixing cylinder 4 by water in a water tank 83 through a bidirectional spray nozzle 86, and then a telescopic electric cylinder 82 operates to drive the bidirectional spray nozzle 86 to move in the mixing cylinder 4 so as to clean the mixing cylinder 4; the adjusting system 3 aligns the nozzle of the mixing cylinder 4 with the telescopic end of the telescopic electric cylinder 82, the telescopic electric cylinder 82 drives the bidirectional spray nozzle 86 to move to the nozzle of the mixing cylinder 4, then the water suction pump 84 drives water to be sprayed to the inner wall of the mixing cylinder 4 from the bidirectional spray nozzle 86, and the rotating motor 53 drives the mixing cylinder 4 to rotate to be matched with the bidirectional spray nozzle 86 to wash the interior of the mixing cylinder 4.

A mixing process of a mixing system for producing building materials comprises the following steps,

the first step is as follows: the oscillation system 2 is driven by an oscillation motor 28 to move an oscillation connecting rod 291, so that an oscillation plate 26 is shaken to drive an oscillation hole frame 22 to oscillate, the oscillation hole frame 22 oscillates and separates raw materials, other devices are convenient to mix the building materials, the building materials are uniformly mixed, and then a conveying belt 23 operates to drive the raw materials to move, and the raw materials are thrown into a mixing barrel 4; before the operation starts, raw materials are added into the oscillation hole frame 22, the oscillation motor 28 starts to operate to drive the oscillation rotating plate 29 to rotate, the oscillation rotating plate 29 drives the oscillation connecting rod 291 to oscillate, so that the oscillation plate 26 is driven to oscillate on the supporting seat 21, the oscillation plate 26 drives the oscillation hole frame 22 to oscillate, the raw materials are oscillated and separated to fall onto the conveying belt 23, the mixing system 7 can mix the building materials conveniently, and then the raw materials enter the mixing barrel 4 along with the conveying belt 23 to be mixed;

the second step is that: the adjusting system 3 drives the adjusting clamp ring 33 and the bearing frame 34 to rotate by the adjusting motor 32 to drive the mixing cylinder 4 to rotate, so that the angle of the mixing cylinder 4 is adjusted, raw materials are added and taken conveniently, and meanwhile, when the mixing cylinder 4 is driven to rotate by the rotating system 5 and the mixing system 7 operates, the angle of the mixing cylinder 4 is adjusted, so that the mixing uniformity of the raw materials is improved; when a batch of raw materials enter the mixing cylinder 4 along with the conveyer belt 23, the adjusting motor 32 drives the two adjusting rotating rods 35, the adjusting clamping ring 33 and the bearing frame 34 to rotate, the angle of the mixing cylinder 4 is adjusted, after mixing is finished, the adjusting motor 32 drives the adjusting clamping ring 33 to align the bottom of the mixing cylinder 4 to the material collecting box 11 for blanking, and then the cylinder opening of the mixing cylinder 4 is adjusted to align the cleaning system 8 for cleaning;

the third step: four welding curved plates 41 welded at equal angles in pairs are arranged on the inner side wall of the mixing cylinder 4, tooth grooves on the outer ring 42 are meshed with the rotating system 5, the mixing cylinder 4 can be driven by the rotating system 5 to rotate on the bearing frame 34, when building materials are mixed, the mixing cylinder 4 rotates along with the rotating system 5, the four welding curved plates 41 drive the internal building materials to carry out vortex type mixing, the building materials are stirred to the middle and the bottom while being mixed with the external building materials, and the mixing is uniformly carried out on the building materials by matching with the mixing system 7, so that the mixing effect on the building materials is improved;

the fourth step: the rotating system 5 drives the rotating gear 54 to rotate by the rotating motor 53, the rotating gear 54 is meshed with the tooth grooves of the outer ring 42, so that the mixing cylinder 4 is driven to rotate by the outer ring 42, and the welding curved plate 41 in the mixing cylinder 4 mixes the building materials; when the building materials enter the mixing cylinder 4 and the bearing frame 34 are adjusted in angle, the rotating motor 53 starts to drive the rotating gear 54 to rotate, the mixing cylinder 4 is driven by the outer ring 42 to rotate on the bearing frame 34 and the outer ring 42, the building materials are uniformly mixed by matching with the mixing system 7, and when the building materials are cleaned, the rotating motor 53 drives the mixing cylinder 4 to rotate and matches with the cleaning system 8 to clean the mixing cylinder 4;

the fifth step: the closing system 6 comprises two important parts, namely a buckle 64 and a fixing head 65, the fixing head 65 is clamped on the buckle 64 by moving the closing cover 61, the closing cover 61 is sealed at the closing opening 63, the fixing head 65 is taken out of the buckle 64, the closing cover 61 is opened, and the building materials are conveniently discharged; before the building materials are injected into the mixing cylinder 4, the closing cover 61 is covered on the closing opening 63, then the fixing head 65 on the closing cover 61 is clamped on the buckle 64, the closing cover 61 is sealed at the closing opening 63, the building materials are prevented from leaking, after the mixing is finished, the adjusting system 3 drives the bottom of the mixing cylinder 4 to face the material collecting box 11, the fixing head 65 is drawn out from the buckle 64, the closing cover 61 is opened, and the building materials flow into the material collecting box 11 from the closing opening 63;

and a sixth step: the material mixing system 7 is characterized in that a material mixing motor 71 drives a material mixing rotating disc 72 to drive four material mixing plates 73 to mix the building materials at the bottom in the material mixing cylinder 4, and the material mixing rotating disc is matched with four welding curved plates 41 to mix the building materials which cannot be contacted with the welding curved plates 41; when the rotating motor 53 drives the rotating gear 54 to drive the mixing cylinder 4 to rotate, the mixing motor 71 drives the mixing plate 73 to rotate, the mixing plate 73 mixes the building materials at the middle and the bottom, and the welding curved plate 41 mixes the building materials at the outer side, so that the building materials are completely mixed;

the seventh step: the cleaning system 8 is characterized in that a water pump 84 cleans the inner wall of the mixing cylinder 4 by water in a water tank 83 through a bidirectional spray nozzle 86, and then a telescopic electric cylinder 82 operates to drive the bidirectional spray nozzle 86 to move in the mixing cylinder 4 so as to clean the mixing cylinder 4; the adjusting system 3 aligns the nozzle of the mixing cylinder 4 with the telescopic end of the telescopic electric cylinder 82, the telescopic electric cylinder 82 drives the bidirectional spray nozzle 86 to move to the nozzle of the mixing cylinder 4, then the water suction pump 84 drives water to be sprayed to the inner wall of the mixing cylinder 4 from the bidirectional spray nozzle 86, and the rotating motor 53 drives the mixing cylinder 4 to rotate to be matched with the bidirectional spray nozzle 86 to wash the interior of the mixing cylinder 4.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (9)

1. A mixing system for building material production is characterized by comprising a support frame (1), a vibration system (2), an adjusting system (3), a mixing cylinder (4), a rotating system (5), a closing system (6), a mixing system (7), a cleaning system (8) and a collecting box (11), the supporting frame (1) is vertically arranged on a horizontal plane, the oscillating system (2) is arranged on the supporting frame (1), the adjusting system (3) is arranged beside the support frame (1), the rotating system (5) is arranged on the adjusting system (3), the closed system (6) is welded at the bottom of the mixing drum (4), the mixing system (7) is arranged on the closed system (6), the cleaning system (8) is arranged on one side of the rotating system (5), and the material collecting box (11) is arranged on the other side of the rotating system (5).

2. The mixing system for producing building materials of claim 1, wherein the oscillation system (2) comprises a support base (21), an oscillation hole frame (22), a conveyor belt (23), a limiting plate (24), two oscillation assemblies (25) and four oscillation plates (26), the support base (21) is installed at the top of the support frame (1), the conveyor belt (23) is installed at the top of the support base (21), the limiting plate (24) is arranged on the support base (2) and located at the discharge end of the conveyor belt (23), the support base (21) and the oscillation hole frame (22) are respectively welded with four connecting blocks (27), one ends of the four oscillation plates (26) are respectively hinged on the four connecting blocks (27) on the support base (21), and the oscillation hole frame (22) is installed at the other ends of the four oscillation plates (26) through the four connecting blocks (27) on the oscillation hole frame (22), two it installs on supporting seat (21) to vibrate subassembly (25) symmetry respectively, every it all includes shock motor (28), vibrates rotor plate (29) and vibrates connecting rod (291) to vibrate subassembly (25), vibrate motor (28) and install the top at supporting seat (21) and the main shaft of vibrating motor (28) and run through supporting seat (21), the one end of vibrating rotor plate (29) is installed on the main shaft of vibrating motor (28), the one end of vibrating connecting rod (291) articulates the other end at vibrating rotor plate (29), it is connected with two vibrations board (26) of one side of supporting seat (21) to vibrate connecting rod (291), the other end of vibrating connecting rod (291) articulates on supporting seat (21).

3. A mixing system for building material production, according to claim 1, characterized in that, governing system (3) is including adjusting seat (31), adjusting motor (32), regulation snap ring (33), bear frame (34) and two regulation dwang (35), adjust seat (31) and set up the side at support frame (1), two the one end of adjusting dwang (35) is rotated respectively and is installed on two inside walls of adjusting seat (31), adjusting motor (32) set up on adjusting seat (31) and the main shaft of adjusting motor (32) runs through adjusting seat (31) and is connected in the one end of one of them regulation dwang (35), adjust the other end of snap ring (33) welding at two regulation dwang (35), the both ends of bearing frame (34) are welded respectively on two regulation dwang (35).

4. The mixing system for the production of building materials according to claim 3, characterized in that the mixing cylinder (4) is installed in the adjusting snap ring (33) and the mixing cylinder (4) is matched with the adjusting snap ring (33) in a rotating manner, four welding curved plates (41) are arranged in the mixing cylinder (4), four welding curved plates (41) are respectively welded on the inner side wall of the mixing cylinder (4) at equal angles in pairs, a feed opening is arranged at the bottom of the mixing cylinder (4), two outer rings (42) are further welded on the outer side of the mixing cylinder (4), and a tooth groove is formed in each outer ring (42).

5. A mixing system for the production of building materials, as claimed in claim 4, the rotating system (5) comprises four rotating assemblies (51), the four rotating assemblies (51) are respectively arranged on the bearing frame (34) in a pairwise symmetry manner, each rotating assembly (51) comprises a fixed seat (52), a rotating motor (53), a rotating gear (54) and a fixed clamping plate (55), the fixed seat (52) is welded on the bearing frame (34), the fixed clamping plate (55) is welded on the bearing frame (34), the rotating gear (54) is rotatably arranged in the fixed clamping plate (55) and the rotating gear (54) is meshed with a tooth groove on the outer ring (42), the tail end of the rotating motor (53) is installed on the fixed seat (52), and the main shaft of the rotating motor (53) penetrates through the fixed clamping plate (55) and is connected to the rotating gear (54).

6. A mixing system for the production of building materials, according to claim 1, characterized in that said closing system (6) comprises a closing cover (61), a closing seat (62), a closing mouth (63) and a buckle (64), said closing seat (62) is welded on the bottom of the mixing bowl (4), said closing mouth (63) is welded on the closing seat (62), said closing cover (61) is hinged on the side wall of the closing mouth (63), said buckle (64) is hinged on the side wall of the closing mouth (63) and is located right opposite to the closing cover (61), said closing cover (61) is provided with a fixing head (65) matching with the buckle (64).

7. A mixing system for producing building materials, as claimed in claim 6, wherein the mixing system (7) comprises a mixing motor (71), a mixing rotating disc (72) and four mixing plates (73), the mixing motor (71) is arranged on the closed cover (61) and a main shaft of the mixing motor (71) penetrates through the closed cover (61), the mixing rotating disc (72) is arranged on the main shaft of the mixing motor (71) and the mixing rotating disc (72) is in rotating fit with the closed cover (61), and the four mixing plates (73) are respectively welded on the mixing rotating disc (72) in pairs at equal angles.

8. A mixing system for building material production according to claim 1, characterized in that the cleaning system (8) comprises a bracket (81), a telescopic electric cylinder (82), a water tank (83), a water pump (84), a water pipe (85) and a bidirectional nozzle (86), the bracket (81) is installed at the side of the adjusting seat (31), the tail end of the telescopic electric cylinder (82) is connected to the bracket (81), the water tank (83) is arranged at the side of the bracket (81), one end of the water pipe (85) is connected to the water tank (83), the water pump (84) is arranged on the water pipe (85), the water pipe (85) is installed at the telescopic end of the telescopic electric cylinder (82), and the bidirectional nozzle (86) is installed at the other end of the water pipe (85).

9. A mixing process of a mixing system for the production of building materials according to any one of claims 1 to 8, characterized by comprising the steps of,

the first step is as follows: the oscillation system (2) is characterized in that an oscillation motor (28) drives an oscillation connecting rod (291) to move, so that an oscillation plate (26) is shaken to drive an oscillation hole frame (22) to oscillate, the oscillation hole frame (22) oscillates and separates raw materials, other devices are convenient to mix the building materials, the building materials are uniformly mixed, and then a conveying belt (23) operates to drive the raw materials to move, and the raw materials are thrown into a mixing barrel (4); before the work begins, add the raw materials and get into and vibrate in the hole frame (22), vibrate motor (28) and begin to operate, drive and vibrate rotor plate (29) and rotate, vibrate rotor plate (29) and drive and vibrate connecting rod (291) and rock, thereby drive and vibrate board (26) and rock on supporting seat (21), vibrate board (26) and drive and vibrate hole frame (22) vibrations, make the raw materials vibrate the separation and fall into on conveyer belt (23), be convenient for mixing system (7) to mix building material, the raw materials enters into along with conveyer belt (23) and mixes in compounding section of thick bamboo (4) afterwards;

the second step is that: the adjusting system (3) drives the adjusting clamping ring (33) and the bearing frame (34) to rotate by the adjusting motor (32) to drive the mixing cylinder (4) to rotate, so that the angle of the mixing cylinder (4) is adjusted, raw materials are added and taken conveniently, and meanwhile, when the mixing cylinder (4) is driven to rotate by the rotating system (5) and the mixing system (7) operates, the angle of the mixing cylinder (4) is adjusted, so that the mixing uniformity of the raw materials is improved; when a batch of raw materials enter the mixing cylinder (4) along with the conveying belt (23), the adjusting motor (32) drives the two adjusting rotating rods (35), the adjusting clamping ring (33) and the bearing frame (34) to rotate, the angle of the mixing cylinder (4) is adjusted, after mixing is finished, the adjusting motor (32) drives the adjusting clamping ring (33) to align the bottom of the mixing cylinder (4) to the material collecting box (11), discharging is carried out, and then the opening of the mixing cylinder (4) is adjusted to be aligned to the cleaning system (8) for cleaning;

the third step: four welding curved plates (41) welded at equal angles in pairs are arranged on the inner side wall of the mixing cylinder (4), tooth grooves on the outer ring (42) are meshed with the rotating system (5), the mixing cylinder (4) can be driven by the rotating system (5) to rotate on the bearing frame (34), when the building materials are mixed, the mixing cylinder (4) rotates along with the rotating system (5), the four welding curved plates (41) drive the internal building materials to carry out mixing vortex type, when the external building materials are mixed, the building materials are stirred to the middle and the bottom, and simultaneously the mixing system (7) is matched to uniformly mix the building materials;

the fourth step: the rotating system (5) drives a rotating gear (54) to rotate by a rotating motor (53), the rotating gear (54) is meshed with a tooth groove of an outer ring (42), so that the mixing cylinder (4) is driven to rotate by the outer ring (42), and a welding curved plate (41) in the mixing cylinder (4) mixes building materials; when building materials enter the mixing barrel (4), and the mixing barrel (4) and the bearing frame (34) are adjusted in angle, the rotating motor (53) starts to drive the rotating gear (54) to rotate, the mixing barrel (4) is driven to rotate on the bearing frame (34) and the outer ring (42) through the outer ring (42) and is matched with the mixing system (7) to uniformly mix the building materials, and when the building materials are cleaned, the rotating motor (53) drives the mixing barrel (4) to rotate and is matched with the cleaning system (8) to clean the mixing barrel (4);

the fifth step: the closing system (6) comprises two important parts, namely a buckle (64) and a fixing head (65), the fixing head (65) is clamped on the buckle (64) by moving the closing cover (61), the closing cover (61) is sealed at the closing opening (63), the fixing head (65) is taken out of the buckle (64), the closing cover (61) is opened, and the building materials are conveniently discharged; before the building materials are injected into the mixing cylinder (4), the closing cover (61) is covered on the closing opening (63), then a fixing head (65) on the closing cover (61) is clamped on a buckle (64), so that the closing cover (61) is sealed at the closing opening (63) to prevent the building materials from leaking, after mixing is finished, the adjusting system (3) drives the bottom of the mixing cylinder (4) to face the material collecting box (11), the fixing head (65) is pulled out from the buckle (64), the closing cover (61) is opened, and the building materials flow into the material collecting box (11) from the closing opening (63);

and a sixth step: the mixing system (7) is characterized in that a mixing motor (71) drives a mixing rotating disc (72) to drive four mixing plates (73) to mix the building materials at the bottom in the mixing cylinder (4), and the mixing rotating disc is matched with four welding curved plates (41) to mix the building materials which cannot be contacted with the welding curved plates (41); when the rotating motor (53) drives the rotating gear (54) to drive the mixing cylinder (4) to rotate, the mixing motor (71) drives the mixing plate (73) to rotate, the mixing plate (73) mixes the building materials at the middle and the bottom, and the welding curved plate (41) mixes the building materials at the outer side, so that the building materials are all mixed;

the seventh step: the cleaning system (8) is characterized in that a water pump (84) is used for cleaning the inner wall of the mixing cylinder (4) by water in a water tank (83) through a bidirectional spray nozzle (86), and then a telescopic electric cylinder (82) operates to drive the bidirectional spray nozzle (86) to move in the mixing cylinder (4) so as to clean the mixing cylinder (4); the adjusting system (3) aims at the telescopic end of the telescopic electric cylinder (82) with the nozzle of the mixing cylinder (4), the telescopic electric cylinder (82) drives the two-way spray nozzle (86) to move to the nozzle of the mixing cylinder (4), then the water pump (84) drives water to be sprayed to the inner wall of the mixing cylinder (4) from the two-way spray nozzle (86), the rotating motor (53) drives the mixing cylinder (4) to rotate, and the mixing cylinder is matched with the two-way spray nozzle (86) to wash the interior of the mixing cylinder (4).

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