CN113289895A - High efficiency grading processing system based on concrete additive - Google Patents

Abstract

The invention discloses a high-efficiency grading processing system based on a concrete additive, which comprises a finished product box, a heating box arranged at the top of the finished product box and an installation vertical plate fixed at the top of the heating box, wherein the heating box is fixed at the top of the finished product box through a support rod, frame plates are fixed on two sides of the front surface of the installation vertical plate, a heating pot is rotatably connected between one opposite sides of the two frame plates through a turnover shaft, and a circular groove matched with the heating pot is formed in the front surface of the installation vertical plate in a penetrating manner. This high efficiency grading system of processing based on concrete additive through the setting of the thermally equivalent mechanism that rolls, and then makes the inside concrete additive of whole heating pot can thermally equivalent, and the preliminary treatment is effectual, can improve the processingquality of concrete additive, and cooperation drive tilting mechanism can directly pour the concrete additive after drying into screening cover, does not need manual operation, and degree of automation is high, and machining efficiency is high.

Description

High efficiency grading processing system based on concrete additive

Technical Field

The invention relates to the technical field of concrete additive processing, in particular to a high-efficiency grading processing system based on concrete additives.

Background

The concrete additive is called additive for short, is a substance for improving the performance of concrete, and comprises a water reducing agent, an early strength agent, a retarder, an air entraining agent, an antifreezing agent, an accelerator and a pumping aid according to the functional classification of the concrete additive, wherein part of the concrete additive is an additive solvent, but the solvent is inconvenient to transport and store, so that the concrete additive needs to be prepared into a dry powder state.

Referring to the chinese patent, a concrete additive production apparatus (publication No. CN207769710U, published japanese patent No. 2018.08.28) comprises a driver, a rotary feeder, a manual operating lever, an indicator, an additive delivery pipe, an upper cover, an additive dryer, a base, a support rod, a concrete mixer, an operation table, a power line, and an inductor, wherein the driver is located at the left side of the rotary feeder. The utility model discloses a heat that the electric heater heating produced makes in heating cavity lateral wall transmits the drying chamber, makes the material heated and dried to be equipped with the blowing machine bottom protective housing and make the concrete additive dried once more, can make the dry degree of concrete additive reach the effect of expectation, improved the dry condition's of concrete additive effect.

Referring to Chinese patent, a concrete additive production device (publication number: CN206483394U, published Japanese 2017.09.12) comprises a shell, wherein a drain pipe is connected to the outer wall of one side of the shell, support columns are welded to four corners of the bottom of the shell, a motor is fixed to the inner wall of the bottom of the shell through bolts, and a tray located above the inner wall of the bottom of the shell is sleeved on an output shaft of the motor. The utility model discloses, through the interior mixed liquid centrifugation rotation of cylinder, the water in the mixed liquid overflows through the through-hole, has reduced the moisture in the additive, has practiced thrift a large amount of dehydration time, and water resource has been practiced thrift to recycle after outlet pipe discharges, has improved production efficiency.

In view of the above-referenced patents, the existing high-efficiency grading processing system based on concrete additives still has the following disadvantages:

1. in the drying process, the concrete additive at the bottom cannot roll to the upper side, so that the concrete additive at the bottom is easy to be scorched, the concrete additive close to the middle part cannot be sufficiently dried, the drying efficiency is low, the drying effect is not good, and the processing quality of the concrete additive is influenced;

2. impurities generally exist in the concrete additive, and cannot be removed;

3. the existing impurity removal method generally only adopts vibration screening, so that the method is inconvenient for removing impurities with smaller volume and realizing fine impurity removal.

The present invention therefore proposes a highly efficient hierarchical processing system based on concrete additives to solve the above mentioned problems.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a high-efficiency grading processing system based on a concrete additive, which solves the problems that the concrete additive at the bottom cannot roll to the upper side in the drying process, so that the concrete additive at the bottom is easy to be scorched, the concrete additive close to the middle part cannot be fully dried, the drying efficiency is low, the drying effect is poor, and the processing quality of the concrete additive is influenced; impurities generally exist in the concrete additive, and cannot be removed; the existing impurity removal method generally only adopts vibration screening, and the method is inconvenient for removing impurities with smaller volume and realizing fine impurity removal.

In order to achieve the purpose, the invention is realized by the following technical scheme: a high-efficiency grading processing system based on concrete additives comprises a finished product box, a heating box arranged at the top of the finished product box and an installation vertical plate fixed at the top of the heating box, wherein the heating box is fixed at the top of the finished product box through a support rod, frame plates are fixed on two positive sides of the installation vertical plate, a heating pot is rotatably connected between two opposite sides of the frame plates through a turnover shaft, a circular groove matched with the heating pot is formed in the front of the installation vertical plate in a penetrating manner, a lifting plate is slidably connected to the front of the installation vertical plate, a placing plate is fixed in front of the lifting plate, a hydraulic cylinder is fixed on the front of the installation vertical plate, the bottom end of the hydraulic cylinder is fixedly connected with the top of the lifting plate, a rolling uniformly-heated mechanism is arranged on the front of the placing plate, a driving turnover mechanism is arranged on the frame plate on the right side, and a shaking and dust collecting mechanism is arranged on the heating box, the inside of heating cabinet is provided with disturbance heating blanking mechanism, the inside of finished product case is provided with air current edulcoration feed mechanism, the inside of finished product case still is provided with anti-blocking mechanism, be provided with the removal heating element on the installation riser.

The thermally equivalent mechanism that rolls is including fixing the positive motor that rolls of placing the board, the front of placing the board is rotated through the bull stick and is connected with first fixed block, the left side of first fixed block is fixed with semicircle ring piece, the output shaft of the motor that rolls is fixed with the drive shaft, the one end of drive shaft is fixed with the second fixed block, the front of second fixed block is fixed with the swinging block, the front of swinging block is fixed with the poker rod, the half arc groove of seting up with poker rod looks adaptation is run through in the front of semicircle ring piece, the bottom of semicircle ring piece is rotated and is connected with the arc pole, the one end of arc pole is fixed with the shovel that turns over, the front of placing the board is fixed with the welding piece, be fixed with the extrusion spring between the surface of arc pole and the bottom of welding piece.

The turnover mechanism is fixed on a turnover gear on the surface of the turnover shaft, the turnover cylinder is fixed on the right side of the frame plate, a turnover rack meshed with the turnover gear is connected to the right side of the frame plate in a sliding mode, the surface of the turnover cylinder is fixedly connected with the bottom of the turnover rack through a connecting rod, and a through groove matched with the turnover rack is formed in the front of the mounting vertical plate in a penetrating mode.

Preferably, shake screening dust absorption mechanism includes that sliding connection is at the screening cover at heating cabinet top and fixes the drive motor on the heating cabinet right side, be fixed with the screen cloth between the periphery of screening cover inner wall, drive motor's output shaft is fixed with the main shaft that runs through on the heating cabinet right side, the fixed surface of main shaft has first bevel gear, the top of heating cabinet is provided with first countershaft, the bottom of first countershaft runs through heating cabinet, finished product case in proper order and extends to the inside of heating cabinet, the center department on first countershaft surface is fixed with the second bevel gear who meshes with first bevel gear.

Preferably, a turntable is fixed above the surface of the first auxiliary shaft, a first bar-shaped block is connected to the surface of the turntable in a rotating mode, a second bar-shaped block is connected to the surface of the first bar-shaped block in a rotating mode, a fixing strip is fixed to the right side of the screening cover, the second bar-shaped block is connected with the fixing strip in a rotating mode, a square pipe penetrating through the bottom of the screening cover to the inside of the heating box is communicated with the bottom of the screening cover, a rectangular groove matched with the square pipe is formed in the top of the heating box in a penetrating mode, and a first vibrating motor is fixed to the front face of the screening cover.

Preferably, shake screening dust absorption mechanism still including fix the suction hood at heating box top, set up the air exhauster at heating box top and fix the water tank at the installation riser back, the air intake of air exhauster passes through the left side intercommunication of pipe with the suction hood, the air outlet of air exhauster passes through the left side intercommunication of pipe with the water tank.

Preferably, disturbance heating blanking mechanism is including fixing the disturbance blade on main shaft surface and fixing the heating pipe between the heating cabinet inner wall is all around, be fixed with the blanking folded plate between the heating cabinet inner wall is all around, the bottom intercommunication of blanking folded plate has the blanking pipe, the bottom of blanking pipe runs through heating cabinet, finished product case in proper order and extends to the inside of heating cabinet, the both sides of blanking folded plate bottom all are fixed with second vibrating motor.

Preferably, the air flow impurity removing and distributing mechanism comprises a second auxiliary shaft which is rotatably connected between two sides of the inner wall of the finished product box, an air flow driving plate is fixed on the surface of the second auxiliary shaft, an inclined baffle plate is fixed between the two sides of the inner wall of the finished product box, an impurity collecting box is fixed at the bottom of the inner wall of the finished product box, a finished product box is fixed at the bottom of the inner wall of the finished product box and on the left side of the impurity collecting box, a first vibrating motor is fixed at the bottom of the inclined baffle plate, an air flow circulation groove is formed in the left side of the finished product box in a penetrating mode, a blocking net is fixed on the left side of the inner wall of the finished product box, a second vibrating motor is fixed on the right side of the blocking net, a third bevel gear is fixed on the surface of the first auxiliary shaft, and a fourth bevel gear meshed with the third bevel gear is fixed on the surface of the second auxiliary shaft.

Preferably, the anti-blocking mechanism includes the anti-blocking motor at the finished product incasement wall back, the back sliding connection of finished product incasement wall has the slide bar, the one end of slide bar is fixed with and runs through at the inside mediation pole of blanking pipe, the output shaft of anti-blocking motor is fixed with prevents stifled axle, the fixed surface who prevents stifled axle is fixed with the cam.

Preferably, the surface of the cam is in contact with the bottom end of the dredging rod, a spring block is fixed on the back surface of the inner wall of the finished box, and a return spring is fixed between the bottom of the spring block and the surface of the sliding rod.

Preferably, the movable heating assembly comprises a heater which is connected to the front face of the mounting vertical plate in a sliding mode and a movable air cylinder which is fixed to the back face of the mounting vertical plate, and a push block is fixed to the back face of the heater.

Preferably, the front surface of the mounting vertical plate is provided with a pushing groove matched with the pushing block in a penetrating manner, and the left end of the moving cylinder is fixedly connected with the right side of the pushing block.

Advantageous effects

The invention provides a high-efficiency grading processing system based on a concrete additive. Compared with the prior art, the method has the following beneficial effects:

(1) the high-efficiency grading processing system based on the concrete additive is characterized in that a rolling uniformly-heated mechanism is arranged on the front face of a placing plate, the rolling uniformly-heated mechanism comprises a rolling motor fixed on the front face of the placing plate, the front face of the placing plate is connected with a first fixed block in a rotating mode through a rotating rod, the arrangement of the rolling uniformly-heated mechanism facilitates continuous rolling of the concrete additive in a heating pot, the concrete additive close to the bottom of the heating pot can be continuously turned up to prevent the concrete additive from being heated too much and being scorched, the concrete additive in the middle portion can be continuously turned up and pressed close to the bottom of the heating pot, the concrete additive in the whole heating pot can be uniformly heated, the pretreatment effect is good, the processing quality of the concrete additive can be improved, and the dried concrete additive can be directly poured into a screening cover by matching with a driving turnover mechanism, the manual operation is not needed, the automation degree is high, and the processing efficiency is high.

(2) This high efficiency grading system of processing based on concrete additive, through be provided with shake screening dust absorption mechanism on the heating cabinet, shake screening dust absorption mechanism includes sliding connection and covers and fix the driving motor on the heating cabinet right side at the screening at heating cabinet top, the screening covers the inner wall and is fixed with the screen cloth between all around, through shake screening dust absorption mechanism's setting, be convenient for get rid of big impurity in the concrete additive fast, the treatment effeciency is high, and when the screening, can adsorb the powder of raiseing, prevent that the staff from absorbing.

(3) This high efficiency grading system of processing based on concrete additive, setting through disturbance blade and heating pipe, be convenient for break up concrete additive powder and dry once more, make the concrete additive can thoroughly dry, then through air current edulcoration feed mechanism's setting, be convenient for utilize the air current to blow impurity and concrete additive, utilize the quality difference between them to carry out the edulcoration to the concrete additive, make impurity can directly drop to in the impurity collects the box, the concrete additive can fall into the finished product box and adsorb on the separation net, can meticulously get rid of the tiny particle impurity in the concrete additive, and through a driving motor alright realize the transmission, can practice thrift the electric energy.

(4) This high efficiency grading system of processing based on concrete additive, through the anti-blocking motor that anti-blocking mechanism includes the finished product incasement wall back, the back sliding connection of finished product incasement wall has the slide bar, the one end of slide bar is fixed with and runs through at the inside mediation pole of blanking pipe, the output shaft of anti-blocking motor is fixed with prevents stifled axle, the fixed surface who prevents stifled axle has the cam, through the setting of anti-blocking mechanism, can effectively avoid blanking pipe to take place to block up, do not need the manual work to dredge.

Drawings

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

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

FIG. 3 is a schematic perspective view of the tumbling uniform heating mechanism of the present invention;

FIG. 4 is a cross-sectional view of a three-dimensional structure of the finished case of the present invention;

FIG. 5 is a schematic perspective view of the anti-blocking mechanism of the present invention;

FIG. 6 is a schematic view of the three-dimensional structure of the driving turnover mechanism of the present invention

FIG. 7 is a cross-sectional view of a three-dimensional configuration of the heating chamber of the present invention;

FIG. 8 is a schematic perspective view of a screening deck configuration of the present invention;

FIG. 9 is a schematic perspective view of the mounting plate structure of the present invention;

FIG. 10 is a schematic perspective view of a heater box configuration of the present invention;

fig. 11 is a perspective view of a partial structure of a moving heating element according to the present invention.

In the figure: 1-finished product box, 2-heating box, 3-rolling uniformly-heated mechanism, 301-rolling motor, 302-rotating rod, 303-first fixed block, 304-semi-circular block, 305-driving shaft, 306-second fixed block, 307-swinging block, 308-poking rod, 309-semi-arc groove, 310-arc rod, 311-turning shovel, 312-welding block, 313-extrusion spring, 4-driving turning mechanism, 401-turning gear, 402-turning cylinder, 403-turning rack, 404-connecting rod, 405-through groove, 5-shaking screening dust-collecting mechanism, 501-screening cover, 502-transmission motor, 503-screen, 504-main shaft, 505-first bevel gear, 506-first auxiliary shaft, 507-second bevel gear, 508-rotating disc, 509-first strip-shaped block, 510-second strip-shaped block, 511-fixed strip, 512-square tube, 513-rectangular groove, 514-first vibrating motor, 515-dust hood, 516-exhaust fan, 517-water tank, 6-disturbance heating blanking mechanism, 601-disturbance blade, 602-heating tube, 603-blanking folded plate, 604-blanking tube, 605-second vibrating motor, 7-airflow impurity removal and separation mechanism, 701-second auxiliary shaft, 702-airflow driving plate, 703-inclined baffle, 704-impurity collection box, 705-finished product box, 706-first vibrating motor, 707-blocking net, 708-second vibrating motor, 709-third bevel gear, 710-fourth bevel gear, 711-airflow circulation groove, 8-anti-blocking mechanism, 801-anti-blocking motor, 802-sliding rod, 803-dredging rod, 804-anti-blocking shaft, 805-cam, 806-spring block, 807-reset spring, 9-moving heating component, 901-heater, 902-moving cylinder, 903-push block, 904-push groove, 10-mounting vertical plate, 11-frame plate, 12-turning shaft, 13-heating pot, 14-circular groove, 15-lifting plate, 16-placing plate and 17-hydraulic cylinder.

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. 1-11, the present invention provides a technical solution: a high-efficiency grading processing system based on concrete additives comprises a finished product box 1, a heating box 2 arranged at the top of the finished product box 1 and an installation vertical plate 10 fixed at the top of the heating box 2, wherein the heating box 2 is fixed at the top of the finished product box 1 through a support rod, frame plates 11 are fixed on two sides of the front surface of the installation vertical plate 10, a heating pot 13 is rotatably connected between two opposite sides of the two frame plates 11 through a turnover shaft 12, a circular groove 14 matched with the heating pot 13 is formed in the front surface of the installation vertical plate 10 in a penetrating manner, a lifting plate 15 is slidably connected to the front surface of the installation vertical plate 10, a placing plate 16 is fixed in front of the lifting plate 15, a hydraulic cylinder 17 is fixed on the front surface of the installation vertical plate 10, the hydraulic cylinder is electrically connected with an external power supply and is controlled through a control switch, a MOB50/63 hydraulic cylinder is adopted, the bottom end of the hydraulic cylinder 17 is fixedly connected, be provided with drive tilting mechanism 4 on the right side frame plate 11, be provided with shake screening dust absorption mechanism 5 on the heating cabinet 2, the inside of heating cabinet 2 is provided with disturbance heating blanking mechanism 6, and the inside of finished product case 1 is provided with air current edulcoration feed mechanism 7, and the inside of finished product case 1 still is provided with anti-blocking mechanism 8, is provided with removal heating element 9 on the installation riser 10.

According to the attached fig. 3, in the embodiment of the present invention, the rolling uniformly-heated mechanism 3 includes a rolling motor 301 fixed on the front surface of the placing plate 16, electrically connected to an external power source and controlled by a control switch, and employs a servo motor with the model number of JSF60-15-30-CF-1000, the front surface of the placing plate 16 is rotatably connected to a first fixed block 303 through a rotating rod 302, a semicircular block 304 is fixed on the left side of the first fixed block 303, a driving shaft 305 is fixed on an output shaft of the rolling motor 301, a second fixed block 306 is fixed on one end of the driving shaft 305, a swinging block 307 is fixed on the front surface of the second fixed block 306, a toggle rod 308 is fixed on the front surface of the swinging block 307, a semi-arc groove 309 matched with the toggle rod 308 is formed through the front surface of the semicircular block 304, an arc rod 310 is rotatably connected to the bottom of the semicircular block 304, a turning shovel 311 is fixed on one end of the arc rod 310, a welding block 312 is fixed on the front surface of the placing plate 16, and an extrusion spring 313 is fixed between the surface of the arc-shaped rod 310 and the bottom of the welding block 312, so that the bottom of the turning shovel 311 can be always attached to the heating pan 13.

According to fig. 6, in the embodiment of the present invention, the turnover mechanism 4 is fixed to a turnover gear 401 on the surface of the turnover shaft 12, a turnover cylinder 402 is fixed to the right side of the frame plate 11, electrically connected to an external power source and controlled by a control switch, the model is QGB125 × 50, a turnover rack 403 engaged with the turnover gear 401 is slidably connected to the right side of the frame plate 11, the surface of the turnover cylinder 402 is fixedly connected to the bottom of the turnover rack 403 through a connecting rod 404, and a through groove 405 matched with the turnover rack 403 is formed through the front surface of the mounting vertical plate 10.

In the embodiment of the invention, the shaking screening dust collection mechanism 5 comprises a screening cover 501 connected to the top of the heating box 2 in a sliding way and a transmission motor 502 fixed on the right side of the heating box 2, the electric connection with external power supply and control through control switch adopt the model JSF60-15-30-CF-1000 servo motor, be fixed with screen cloth 503 between the periphery of screening cover 501 inner wall, be convenient for carry out preliminary filtration to big impurity in the concrete additive, the output shaft of drive motor 502 is fixed with and runs through main shaft 504 on heating cabinet 2 right side, the surface of main shaft 504 is fixed with first bevel gear 505, the top of heating cabinet 2 is provided with first countershaft 506, the bottom of first countershaft 506 runs through heating cabinet 2, finished product case 1 in proper order and extends to the inside of heating cabinet 2, the center department on first countershaft 506 surface is fixed with second bevel gear 507 with first bevel gear 505 engaged with.

In the embodiment of the invention, a rotary disc 508 is fixed above the surface of a first auxiliary shaft 506, a first bar-shaped block 509 is rotatably connected to the surface of the rotary disc 508, a second bar-shaped block 510 is rotatably connected to the surface of the first bar-shaped block 509, a fixed strip 511 is fixed on the right side of a screening cover 501, the second bar-shaped block 510 is rotatably connected with the fixed strip 511, the bottom of the screening cover 501 is communicated with a square tube 512 penetrating into a heating box 2, the top of the heating box 2 is penetrated with a rectangular groove 513 matched with the square tube 512, a first vibrating motor 514 is fixed on the front side of the screening cover 501, and the first vibrating motor is electrically connected with an external power supply and controlled by a control switch, wherein the model is YZS-5-4.

In the embodiment of the invention, the shaking, screening and dust collecting mechanism 5 further comprises a dust collecting cover 515 fixed at the top of the heating box 2, an exhaust fan 516 arranged at the top of the heating box 2 and a water tank 517 fixed at the back of the mounting vertical plate 10, wherein the exhaust fan 516 is electrically connected with an external power supply and is controlled by a control switch, the model is BF4-72, an air inlet of the exhaust fan 516 is communicated with the left side of the dust collecting cover 515 through a guide pipe, and an air outlet of the exhaust fan 516 is communicated with the left side of the water tank 517 through a guide pipe.

In the embodiment of the invention, the disturbance heating blanking mechanism 6 comprises disturbance blades 601 fixed on the surface of the main shaft 504 and heating pipes 602 fixed between the peripheries of the inner walls of the heating box 2, the disturbance blades are electrically connected with an external power supply and are controlled by a control switch, the heating pipes are built-in heating wire pipelines, blanking folded plates 603 are fixed between the peripheries of the inner walls of the heating box 2, blanking pipes 604 are communicated with the bottoms of the blanking folded plates 603, the bottom ends of the blanking pipes 604 sequentially penetrate through the heating box 2 and the finished product box 1 and extend into the heating box 2, second vibration motors 605 are fixed on two sides of the bottoms of the blanking folded plates 603, the second vibration motors are electrically connected with the external power supply and are controlled by the control switch, and the model is YZS-5-4.

In the embodiment of the invention, the airflow impurity removing and distributing mechanism 7 comprises a second auxiliary shaft 701 which is rotatably connected between two sides of the inner wall of the finished product box 1, an airflow driving plate 702 is fixed on the surface of the second auxiliary shaft 701, airflow flows when the second auxiliary shaft 701 rotates, so that airflow distribution of concrete additives is facilitated, an inclined baffle 703 is fixed between two sides of the inner wall of the finished product box 1, an impurity collecting box 704 is fixed at the bottom of the inner wall of the finished product box 1, a finished product box 705 is fixed at the bottom of the inner wall of the finished product box 1 and positioned at the left side of the impurity collecting box 704, a first vibrating motor 706 is fixed at the bottom of the inclined baffle 703, the model is YZS-5-2 which is electrically connected with an external power supply and controlled by a control switch, an airflow circulation groove 711 is formed in the left side of the inner wall of the finished product box 1 in a penetrating way, a blocking net 707 is fixed at the left side of the inner wall of the finished product box 1 to prevent the powdery concrete additives from flying out, a second vibrating motor 708 is fixed at the right side of the blocking net 707, the gear is electrically connected with an external power supply and is controlled by a control switch, the model is YZS-5-2, a third bevel gear 709 is fixed on the surface of the first auxiliary shaft 506, and a fourth bevel gear 710 meshed with the third bevel gear 709 is fixed on the surface of the second auxiliary shaft 701.

In the embodiment of the invention, the anti-blocking mechanism 8 comprises an anti-blocking motor 801 arranged on the back surface of the inner wall of the finished product box 1, the anti-blocking motor 801 is electrically connected with an external power supply and is controlled by a control switch, the model is JSF60-15-30-CF-1000, the back surface of the inner wall of the finished product box 1 is connected with a sliding rod 802 in a sliding manner, one end of the sliding rod 802 is fixedly provided with a dredging rod 803 penetrating through the interior of a blanking pipe 604, an output shaft of the anti-blocking motor 801 is fixedly provided with an anti-blocking shaft 804, and the surface of the anti-blocking shaft 804 is fixedly provided with a cam 805.

In the embodiment of the invention, the surface of the cam 805 is in contact with the bottom end of the dredging rod 803, the back surface of the inner wall of the finished box 1 is fixed with the spring block 806, and the return spring 807 is fixed between the bottom of the spring block 806 and the surface of the sliding rod 802, so that the sliding rod 802 can be quickly returned conveniently.

In the embodiment of the present invention, the movable heating assembly 9 includes a heater 901 slidably connected to the front surface of the mounting vertical plate 10 and a movable cylinder 902 fixed to the back surface of the mounting vertical plate 10, both the heater 901 and the movable cylinder 902 are electrically connected to an external power supply and controlled by a control switch, the heater 901 is a liquefied heater, the movable cylinder 902 has a model number QGB125 × 50, and a push block 903 is fixed to the back surface of the heater 901.

In the embodiment of the invention, a pushing groove 904 matched with the pushing block 903 is formed in the front surface of the mounting vertical plate 10 in a penetrating manner, and the left end of the moving cylinder 902 is fixedly connected with the right side of the pushing block 903.

And those not described in detail in this specification are well within the skill of those in the art.

When the heating device works, a concrete additive to be processed is placed into the heating pot 13, the heater 901 is started, then the rolling motor 301 is started, the driving shaft 305 rotates to drive the second fixed block 306 to rotate clockwise, the swinging block 307 drives the poking rod 308 to rotate clockwise, the poking rod 308 is matched with the semi-arc-shaped groove 309 to drive the semicircular block 304 to continuously swing up and down around the rotating rod 302, the turning shovel 311 is matched with the extrusion spring 313 to be always attached to the inner wall of the heating pot 13, the concrete additive in the heating pot 13 is continuously turned up, after heating and drying are finished, the moving cylinder 902 is started, the moving cylinder 902 contracts to drive the heater 901 to leave the bottom of the heating pot 13, then the turning cylinder 402 is started, the turning cylinder 402 shortens, and the turning rack 403 is matched with the connecting rod 404 to drive the heating pot 13 to rotate around the turning shaft 12, so that the whole heating pot 13 can be turned over, so that the concrete additive in the heating pan 13 can be poured into the screening cover 501, then the transmission motor 502 is started, the main shaft 504 rotates to drive the first auxiliary shaft 506 to rotate through the cooperation of the first bevel gear 505 and the second bevel gear 507, the rotary disc 508 can rotate, the screening cover 501 is driven to continuously move left and right through the rotation of the rotary disc 508 and the cooperation of the first bar-shaped block 509, the second bar-shaped block 510 and the fixing bar 511, the first vibration motor 514 is started at the same time, so that the concrete additive on the screen 503 can be shaken to the bottom of the screen 503, large impurities are filtered by the screen 503, when filtering, the powder can be lifted through vibration, in order to avoid being absorbed by an operator, the exhaust fan 516 is started to convey the powder into the water tank 517, the powder and the water are mixed, the filtered concrete additive enters the heating box 2 through the square pipe 512, and the concrete additive can be scattered when falling down through the rotation of the main shaft 504, the concrete additive can be fully dried by matching with the heating pipe 602, the second vibrating motor 605 is started, the dried concrete additive falls through the blanking pipe 604, the anti-blocking motor 801 is started to drive the cam 805 to rotate through the anti-blocking shaft 804, the cam 805 is driven to rotate and further matches with the sliding rod 802 and the return spring 807 to enable the dredging rod 803 to continuously move up and down to dredge the blanking pipe 604 and prevent the blanking pipe 604 from being blocked, the concrete additive falls onto the inclined baffle 703 through the blanking pipe 604, the first vibrating motor 706 is started to prevent the concrete additive from being retained on the inclined baffle 703, the second auxiliary shaft 701 can be driven to rotate through the matching of the third bevel gear 709 and the fourth bevel gear 710, the second auxiliary shaft 701 drives the air flow driving plate 702 to rotate so that the concrete additive falling from the inclined baffle 703 can be blown due to the heavy weight of impurities, will directly drop to impurity collection box 704 in, the concrete additive will drop to finished product box 705 under the air current effect, and a part of concrete additive will adsorb on separation net 707, starts second vibrating motor 708, can drop the vibration on separation net 707 to finished product box 705 in, carries out meticulous edulcoration to the concrete additive.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (10)

1. The utility model provides a high efficiency grading processing system based on concrete additive, includes finished product case (1), sets up heating cabinet (2) at finished product case (1) top and fixes installation riser (10) at heating cabinet (2) top, heating cabinet (2) are fixed at the top of finished product case (1) through branch, its characterized in that: the improved vertical plate drying machine is characterized in that frame plates (11) are fixed on two sides of the front face of an installation vertical plate (10), a heating pot (13) is connected between one opposite sides of the frame plates (11) in a rotating mode through a turnover shaft (12), a round groove (14) matched with the heating pot (13) is formed in the front face of the installation vertical plate (10) in a penetrating mode, a lifting plate (15) is connected to the front face of the installation vertical plate (10) in a sliding mode, a placing plate (16) is fixed in front of the lifting plate (15), a hydraulic cylinder (17) is fixed on the front face of the installation vertical plate (10), the bottom end of the hydraulic cylinder (17) is fixedly connected with the top of the lifting plate (15), a rolling uniformly-heated mechanism (3) is arranged on the front face of the placing plate (16), a driving turnover mechanism (4) is arranged on the right side of the frame plates (11), and a shaking screening dust collection mechanism (5) is arranged on the heating box (2), a disturbance heating blanking mechanism (6) is arranged inside the heating box (2), an airflow impurity removal and distribution mechanism (7) is arranged inside the finished product box (1), an anti-blocking mechanism (8) is further arranged inside the finished product box (1), and a movable heating assembly (9) is arranged on the mounting vertical plate (10);

the even heating mechanism (3) that rolls is including fixing at the positive motor (301) that rolls of placing board (16), the front of placing board (16) is rotated through bull stick (302) and is connected with first fixed block (303), the left side of first fixed block (303) is fixed with semicircle ring piece (304), the output shaft of the motor (301) that rolls is fixed with drive shaft (305), the one end of drive shaft (305) is fixed with second fixed block (306), the front of second fixed block (306) is fixed with swing block (307), the front of swing block (307) is fixed with poker rod (308), the front of semicircle ring piece (304) runs through half arc groove (309) of seting up with poker rod (308) looks adaptation, the bottom of semicircle ring piece (304) is rotated and is connected with arc pole (310), the one end of arc pole (310) is fixed with shovel (311) that turns over, a welding block (312) is fixed on the front face of the placing plate (16), and an extrusion spring (313) is fixed between the surface of the arc-shaped rod (310) and the bottom of the welding block (312).

The turnover mechanism is characterized in that the driving turnover mechanism (4) is fixed on a turnover gear (401) on the surface of the turnover shaft (12), a turnover cylinder (402) is fixed on the right side of the frame plate (11), a turnover rack (403) meshed with the turnover gear (401) is connected to the right side of the frame plate (11) in a sliding mode, the surface of the turnover cylinder (402) is fixedly connected with the bottom of the turnover rack (403) through a connecting rod (404), and a through groove (405) matched with the turnover rack (403) is formed in the front of the mounting vertical plate (10) in a penetrating mode.

2. The system of claim 1, wherein the system comprises: the shaking screening dust collection mechanism (5) comprises a screening cover (501) and a transmission motor (502), wherein the screening cover (501) is connected to the top of the heating box (2) in a sliding mode, the transmission motor (502) is fixed to the right side of the heating box (2), a screen (503) is fixed to the periphery of the inner wall of the screening cover (501), an output shaft of the transmission motor (502) is fixed to a main shaft (504) penetrating through the right side of the heating box (2), a first bevel gear (505) is fixed to the surface of the main shaft (504), a first auxiliary shaft (506) is arranged at the top of the heating box (2), the bottom end of the first auxiliary shaft (506) penetrates through the heating box (2) and a finished product box (1) in sequence and extends to the inside of the heating box (2), and a second bevel gear (507) meshed with the first bevel gear (505) is fixed to the center of the surface of the first auxiliary shaft (506).

3. The system of claim 2, wherein the system comprises: the utility model discloses a screen printing machine, including first countershaft (506), first countershaft (506) surface, the top on first countershaft (506) surface is fixed with carousel (508), the surface of carousel (508) rotates and is connected with first bar-shaped piece (509), the surface of first bar-shaped piece (509) rotates and is connected with second bar-shaped piece (510), the right side of screening cover (501) is fixed with fixed strip (511), second bar-shaped piece (510) rotate with fixed strip (511) and are connected, the bottom intercommunication of screening cover (501) has the square pipe (512) that runs through to heating cabinet (2) inside, the top of heating cabinet (2) is run through and is seted up rectangular channel (513) with square pipe (512) looks adaptation, the front of screening cover (501) is fixed with first vibrating motor (514).

4. The system of claim 1, wherein the system comprises: shake screening dust absorption mechanism (5) still including fixing suction hood (515) at heating cabinet (2) top, set up air exhauster (516) at heating cabinet (2) top and fix water tank (517) at installation riser (10) back, the left side intercommunication of pipe and suction hood (515) is passed through to the air intake of air exhauster (516), the left side intercommunication of pipe and water tank (517) is passed through to the air outlet of air exhauster (516).

5. The system of claim 2, wherein the system comprises: disturbance heating blanking mechanism (6) are including fixing disturbance blade (601) on main shaft (504) surface and fixing heating pipe (602) between heating cabinet (2) inner wall all around, be fixed with blanking folded plate (603) between heating cabinet (2) inner wall all around, the bottom intercommunication of blanking folded plate (603) has blanking pipe (604), the bottom of blanking pipe (604) runs through heating cabinet (2), finished product case (1) in proper order and extends to the inside of heating cabinet (2), the both sides of blanking folded plate (603) bottom all are fixed with second vibrating motor (605).

6. The system of claim 2, wherein the system comprises: the air flow impurity removing and distributing mechanism (7) comprises a second auxiliary shaft (701) rotatably connected between two sides of the inner wall of a finished product box (1), an air flow driving plate (702) is fixed on the surface of the second auxiliary shaft (701), an inclined baffle plate (703) is fixed between two sides of the inner wall of the finished product box (1), an impurity collecting box (704) is fixed at the bottom of the inner wall of the finished product box (1), a finished product box (705) is fixed at the bottom of the inner wall of the finished product box (1) and positioned at the left side of the impurity collecting box (704), a first vibration motor (706) is fixed at the bottom of the inclined baffle plate (703), an air flow channel (711) is formed in the left side of the finished product box (1) in a penetrating manner, a blocking net (707) is fixed at the left side of the inner wall of the finished product box (1), a second vibration motor (708) is fixed at the right side of the blocking net (707), and a third bevel gear (709) is fixed on the surface of the first auxiliary shaft (506), and a fourth bevel gear (710) meshed with the third bevel gear (709) is fixed on the surface of the second countershaft (701).

7. The system of claim 1, wherein the system comprises: anti-blocking mechanism (8) are including anti-blocking motor (801) at finished product case (1) inner wall back, the back sliding connection of finished product case (1) inner wall has slide bar (802), the one end of slide bar (802) is fixed with and runs through dredging rod (803) inside blanking pipe (604), the output shaft of anti-blocking motor (801) is fixed with anti-blocking axle (804), the fixed surface of anti-blocking axle (804) has cam (805).

8. The system of claim 7, wherein the system comprises: the surface of the cam (805) is in contact with the bottom end of the dredging rod (803), a spring block (806) is fixed on the back surface of the inner wall of the finished box (1), and a return spring (807) is fixed between the bottom of the spring block (806) and the surface of the sliding rod (802).

9. The system of claim 1, wherein the system comprises: the movable heating assembly (9) comprises a heater (901) which is connected to the front face of the mounting vertical plate (10) in a sliding mode and a movable air cylinder (902) which is fixed to the back face of the mounting vertical plate (10), and a push block (903) is fixed to the back face of the heater (901).

10. The system of claim 9, wherein the system comprises: the front surface of the mounting vertical plate (10) is provided with a pushing groove (904) matched with the pushing block (903) in a penetrating mode, and the left end of the moving cylinder (902) is fixedly connected with the right side of the pushing block (903).

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