CN112248191A - Burning-off type steam-pressing brick processing device - Google Patents
Burning-off type steam-pressing brick processing device Download PDFInfo
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- CN112248191A CN112248191A CN202011107961.4A CN202011107961A CN112248191A CN 112248191 A CN112248191 A CN 112248191A CN 202011107961 A CN202011107961 A CN 202011107961A CN 112248191 A CN112248191 A CN 112248191A
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- rod
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- brick
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- 239000011449 brick Substances 0.000 title claims abstract description 128
- 230000007246 mechanism Effects 0.000 claims abstract description 116
- 238000004140 cleaning Methods 0.000 claims abstract description 57
- 239000000835 fiber Substances 0.000 claims abstract description 40
- 230000003028 elevating effect Effects 0.000 claims abstract description 29
- 238000001514 detection method Methods 0.000 claims abstract description 28
- 230000005540 biological transmission Effects 0.000 claims description 72
- 230000006835 compression Effects 0.000 claims description 15
- 238000007906 compression Methods 0.000 claims description 15
- 238000005485 electric heating Methods 0.000 claims description 8
- 238000009434 installation Methods 0.000 abstract description 11
- 239000004576 sand Substances 0.000 abstract description 11
- 238000012423 maintenance Methods 0.000 abstract description 6
- 230000000630 rising effect Effects 0.000 abstract description 5
- 230000000694 effects Effects 0.000 abstract 1
- 238000010438 heat treatment Methods 0.000 description 11
- 239000002994 raw material Substances 0.000 description 10
- 238000000034 method Methods 0.000 description 9
- 230000008569 process Effects 0.000 description 7
- 239000004575 stone Substances 0.000 description 7
- 238000005086 pumping Methods 0.000 description 3
- 239000003245 coal Substances 0.000 description 2
- 239000002893 slag Substances 0.000 description 2
- 235000013311 vegetables Nutrition 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 239000003818 cinder Substances 0.000 description 1
- 238000000748 compression moulding Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 239000010881 fly ash Substances 0.000 description 1
- 238000003837 high-temperature calcination Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 239000002245 particle Substances 0.000 description 1
- 239000000126 substance Substances 0.000 description 1
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B3/00—Producing shaped articles from the material by using presses; Presses specially adapted therefor
- B28B3/02—Producing shaped articles from the material by using presses; Presses specially adapted therefor wherein a ram exerts pressure on the material in a moulding space; Ram heads of special form
- B28B3/04—Producing shaped articles from the material by using presses; Presses specially adapted therefor wherein a ram exerts pressure on the material in a moulding space; Ram heads of special form with one ram per mould
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B11/00—Apparatus or processes for treating or working the shaped or preshaped articles
- B28B11/22—Apparatus or processes for treating or working the shaped or preshaped articles for cleaning
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B15/00—General arrangement or layout of plant ; Industrial outlines or plant installations
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N3/00—Investigating strength properties of solid materials by application of mechanical stress
- G01N3/32—Investigating strength properties of solid materials by application of mechanical stress by applying repeated or pulsating forces
- G01N3/34—Investigating strength properties of solid materials by application of mechanical stress by applying repeated or pulsating forces generated by mechanical means, e.g. hammer blows
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Ceramic Engineering (AREA)
- Mechanical Engineering (AREA)
- Life Sciences & Earth Sciences (AREA)
- Manufacturing & Machinery (AREA)
- Physics & Mathematics (AREA)
- Health & Medical Sciences (AREA)
- Structural Engineering (AREA)
- Analytical Chemistry (AREA)
- Biochemistry (AREA)
- General Health & Medical Sciences (AREA)
- General Physics & Mathematics (AREA)
- Immunology (AREA)
- Pathology (AREA)
- Cleaning In General (AREA)
Abstract
The invention relates to the field of autoclaved bricks, in particular to a burning-off type autoclaved brick processing device. The technical problem of the invention is that: provided is a burning-out type steam-pressing brick processing device. The technical implementation scheme of the invention is as follows: a burning-off type steam-pressing brick processing device comprises a machine bed connecting bottom plate, an elevating workbench, an operation control screen, a first conveyor belt, an installation platform, a second conveyor belt, a press forming mechanism, a brick body cleaning mechanism, a strength detection mechanism and an installation top plate; the upper part of the machine tool connecting bottom plate is welded with the elevating workbench. The invention realizes the rapid press forming of the autoclaved brick, cleans sand and gravel at the top of the formed autoclaved brick, removes fibers rising from the top of the autoclaved brick, prevents the fibers from influencing the treatment of the pressed brick in the subsequent autoclaved maintenance, and has the effect of automatically detecting the strength of the formed autoclaved brick.
Description
Technical Field
The invention relates to the field of autoclaved bricks, in particular to a burning-off type autoclaved brick processing device.
Background
The novel wall material which is manufactured by using fly ash, coal cinder, coal gangue, tailing slag, chemical slag or natural sand, tidal marsh mud and the like as main raw materials without high-temperature calcination is called baking-free brick.
At present, retrieve the mud that produces among the prior art among the paper-making process as the raw materials, but contain a large amount of vegetable fibre in the mud, this kind of fibre is longer, press into behind the brick, because when the press piece separates with the brick surface, can take the vegetable fibre on surface with the adhesion, the fibre is erect on autoclaved brick top surface, influence the subsequent maintenance process of autoclaved brick, there can be partly scattering sand and the stone that does not condense in autoclaved brick top surface simultaneously, influence the aesthetic property and the practicality of autoclaved brick, often need the manual work to carry out cleaning to its top surface, get rid of sand and stone, autoclaved brick often needs the manual work to carry out intensity detection to autoclaved brick after processing is accomplished, often need the manual use instrument to carry out intensity detection to autoclaved brick when intensity detection, the unable accurate control of manual force, can't carry out the continuity operation of unified dynamics standard.
In order to solve the problems, a burning-off type autoclaved brick processing device is provided.
Disclosure of Invention
In order to overcome the defects that the mud generated in the paper making process is recycled as a raw material in the prior art, but the mud contains a large amount of plant fibers which are long and are stuck and taken up when a pressing machine block is separated from the surface of a brick after being pressed into the brick, the fibers are erected on the top surface of the autoclaved brick to influence the subsequent maintenance process of the autoclaved brick, part of sand and stones which are scattered and not condensed exist on the top surface of the autoclaved brick to influence the aesthetic property and the practicability of the autoclaved brick, the top surface of the autoclaved brick is required to be cleaned and removed manually, the strength of the autoclaved brick is required to be detected manually after being processed, the strength of the autoclaved brick is required to be detected manually by using a tool, the manual force cannot be controlled accurately and the continuous operation with unified force standard cannot be performed, the technical problem of the invention is that: provided is a burning-out type steam-pressing brick processing device.
The technical implementation scheme of the invention is as follows: a burning-off type steam-pressing brick processing device comprises a machine bed connecting bottom plate, an elevating workbench, an operation control screen, a first conveyor belt, an installation platform, a second conveyor belt, a press forming mechanism, a brick body cleaning mechanism, a strength detection mechanism and an installation top plate; the upper part of the machine tool connecting bottom plate is welded with the elevating workbench; the upper part of the machine tool connecting bottom plate is connected with a first conveyor belt; the upper part of the machine tool connecting bottom plate is connected with a pressing forming mechanism; the upper part of the machine tool connecting bottom plate is connected with the mounting top plate; the pressing forming mechanism is connected with the elevating workbench; the upper part of the elevating workbench is sequentially connected with the operation control screen and the mounting platform; the upper part of the mounting table is connected with a second conveyor belt; the mounting table is connected with the pressing forming mechanism; the pressing and forming mechanism is connected with the brick cleaning mechanism; the brick cleaning mechanism is connected with the mounting top plate; the mounting top plate is connected with the strength detection mechanism; the strength detection mechanism is connected with the brick cleaning mechanism.
In a preferred embodiment of the invention, the press forming mechanism comprises a first electric push rod, a first guide plate, a propelling mechanism, a lower pressure column, a lower pressure lifting control frame, a forming cabin, a second guide plate, an upper top plate and a first lifting column; the first electric push rod is connected with the first guide plate; a propelling mechanism is arranged below the first electric push rod; a lower pressure column is arranged above the first guide plate; the lower pressing column is in sliding connection with the lower pressing lifting control frame; a forming cabin is arranged below the lower compression column; a second guide plate is arranged on the right side of the forming cabin; an upper top plate is arranged on the inner side of the forming cabin; the lower part of the upper top plate is connected with a first lifting column; the lower part of the first lifting column is connected with a machine tool connecting bottom plate; the lower part of the second guide plate is connected with the elevating workbench; the lower part of the forming cabin is connected with an elevating workbench; the lower part of the downward-pressing lifting control frame is connected with a machine tool connecting bottom plate; the lower part of the propelling mechanism is connected with an elevating workbench; the propelling mechanism is connected with the mounting table; the first electric push rod is connected with the mounting table; the pushing mechanism is connected with the brick cleaning mechanism.
In a preferred embodiment of the invention, the brick cleaning mechanism comprises a power motor, a first driving wheel, a second driving wheel, a collecting hanging plate, a first bevel gear, a second bevel gear, a first telescopic rotating shaft, a first bearing sleeve plate, a second electric push rod, a third bevel gear, an air pump, a collecting air outlet pipe, an air inlet pipe, an air exhaust pipe, a fiber removing mechanism, a sliding limiting frame, a propelling control rod, a spherical lug, an elastic telescopic column, a third electric push rod, a compression plate, a reset buffer spring, a hairbrush roller, a first flat gear, an air flow nozzle, a fixed long plate, a second flat gear, a collecting box, a sixth bevel gear and a seventh bevel gear; an output shaft of the power motor is fixedly connected with the first driving wheel; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the second driving wheel is connected with the integrated hanging plate; the outer ring surface of the second driving wheel is in transmission connection with the first bevel gear through a belt; the first bevel gear is connected with the set hanging plate; the first bevel gear is meshed with the second bevel gear; the second bevel gear core is fixedly connected with the first telescopic rotating shaft; the first telescopic rotating shaft is connected with the integrated hanging plate; the outer surface of the first telescopic rotating shaft is rotatably connected with the first bearing sleeve plate; the first bearing sleeve plate is connected with the second electric push rod; the lower part of the second electric push rod is connected with the integrated hanging plate; the outer surface of the first telescopic rotating shaft is fixedly connected with a third bevel gear; the upper part of the integrated hanging plate is connected with an air pump through bolts; the upper part of the air pump is connected with a collecting air outlet pipe; the air pump is connected with the air inlet pipe; the lower part of the air inlet pipe is connected with an exhaust pipe; the lower part of the integrated hanging plate is connected with a fiber removing mechanism; the fiber removing mechanism is connected with the seventh bevel gear; the lower part of the seventh bevel gear is connected with a set hanging plate; the seventh bevel gear is meshed with the sixth bevel gear; the axis of the sixth bevel gear is fixedly connected with the first telescopic rotating shaft; the integrated hanging plate is connected with the sliding limiting frame; the sliding limiting frame is in sliding connection with the propelling control rod; a spherical convex block is arranged above the propelling control rod; the upper part of the spherical convex block is connected with the elastic telescopic column; the elastic telescopic column is connected with the third electric push rod; the propulsion control rod is connected with the compression plate; the lower part of the compression plate is connected with a reset buffer spring; the lower part of the reset buffer spring is connected with the sliding limiting frame; the propelling control rod is rotationally connected with the brush roller; the axis of the brush roller is fixedly connected with the first flat gear; the sliding limiting frame is connected with the airflow nozzle; the lower part of the integrated hanging plate is connected with the fixed long plate; the fixed long plate is rotationally connected with the second flat gear; the rear side of the outer ring surface of the second flat gear is in transmission connection with a second transmission wheel through a belt; the collecting air outlet pipe is connected with the collecting box; the lower part of the collecting box is connected with a collecting hanging plate; the upper part of the integrated hanging plate is connected with the mounting top plate; the upper part of the elastic telescopic column is connected with the mounting top plate; the upper part of the third electric push rod is connected with the mounting top plate; the lower part of the power motor is connected with the mounting top plate; the first driving wheel is connected with the propelling mechanism; the first driving wheel is connected with the strength detection mechanism.
In a preferred embodiment of the present invention, the strength detecting mechanism comprises a fourth bevel gear, a fifth bevel gear, a first rotating shaft rod, a first bearing frame plate, a third driving wheel, a fourth driving wheel, a fifth driving wheel, a second rotating shaft rod, a second bearing frame plate, a rotating disc, a linkage convex column, a linkage rectangular frame strip, a lower pressing strip, a sixth driving wheel, a third bearing frame plate, a third gear, a first half gear, a first long control rod, a first hitting ball, a fourth flat gear, a seventh driving wheel, an eighth driving wheel, a fifth flat gear, a second half gear, a second long control rod, a second hitting ball and a mounting hanging plate; the fourth bevel gear is meshed with the fifth bevel gear; the axis of the fifth bevel gear is fixedly connected with the first rotating shaft rod; the outer surface of the first rotating shaft rod is rotationally connected with the first bearing frame plate; the first rotating shaft rod is fixedly connected with the third driving wheel; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the axle center of the fourth driving wheel is fixedly connected with the second rotating shaft rod; the outer surface of the second rotating shaft rod is fixedly connected with a fifth driving wheel; the outer surface of the second rotating shaft rod is rotatably connected with the second bearing frame plate; the lower part of the second bearing frame plate is connected with the mounting hanging plate through bolts; the second rotating shaft rod is fixedly connected with the rotating disc; the rotary disc is inserted with the linkage convex column; the outer surface of the linkage convex column is in transmission connection with the linkage rectangular frame strip; the lower part of the linkage rectangular frame strip is connected with the lower pressing strip; the outer surface of the lower pressing strip is in sliding connection with the mounting hanging plate; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the axis of the sixth transmission wheel is rotationally connected with the third bearing frame plate; the upper part of the third bearing frame plate is connected with the mounting hanging plate; the axle center of the sixth driving wheel is fixedly connected with the third horizontal gear; the lower part of the third spur gear is meshed with the first half gear; the axle center of the first half gear is fixedly connected with a first long control rod; the first control long rod is rotatably connected with the third bearing frame plate; the lower part of the first control long rod is fixedly connected with the first hitting ball; the third flat gear is meshed with the fourth flat gear; the axle center of the fourth flat gear is fixedly connected with the seventh transmission wheel; the axle center of the seventh transmission wheel is rotationally connected with the third bearing frame plate; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the axle center of the eighth transmission wheel is rotationally connected with the third bearing frame plate; the axle center of the eighth driving wheel is fixedly connected with the fifth flat gear; the lower part of the fifth flat gear is meshed with the second half gear; the axle center of the second half gear is fixedly connected with a second long control rod; the second control long rod is rotatably connected with the third bearing frame plate; the lower part of the second control long rod is fixedly connected with a second striking ball; the fourth bevel gear is connected with the mounting top plate; the lower part of the first bearing frame plate is connected with the mounting top plate; the upper part of the mounting hanging plate is connected with the mounting top plate; the fourth bevel gear is connected with the first driving wheel.
In a preferred embodiment of the invention, the propelling mechanism comprises a propelling rod, a first limit chute plate, a first rack rail plate, a fixed connecting frame, a sixth flat gear, a second rack rail plate, a long slide block, a second limit chute plate, a first transmission rod, a second transmission rod, a ninth transmission wheel and a tenth transmission wheel; the push rod is connected with the first limiting sliding groove plate in a sliding manner; the lower part of the push rod is connected with the first rack rail plate through a bolt; the lower part of the first limiting chute plate is fixedly connected with the fixed connecting frame; the lower part of the first rack rail plate is meshed with a sixth flat gear; the sixth flat gear is rotationally connected with the fixed connecting frame; the lower part of the sixth flat gear is meshed with the second rack rail plate; the lower part of the second rack rail plate is connected with the long slide block; the outer surface of the long slide block is in sliding connection with the second limiting slide groove plate; the long slide block is rotationally connected with the first transmission rod; the first transmission rod is rotationally connected with the second transmission rod; the second transmission rod is fixedly connected with the ninth transmission wheel; the outer ring surface of the ninth driving wheel is in transmission connection with the tenth driving wheel through a belt; the tenth driving wheel is connected with the elevating workbench; the ninth driving wheel is connected with the mounting table; the lower part of the second limiting sliding groove plate is connected with an elevating workbench; the fixed connecting frame is connected with the mounting table; the tenth driving wheel is connected with the first driving wheel.
In a preferred embodiment of the invention, the fiber removing mechanism comprises a double-plate fixing frame, a first screw rod, an eleventh transmission wheel, an internal thread sliding block, a limiting sliding rod, an electric rotating shaft, a first cleaning plate, a second cleaning plate and an electric heating wire; the double-plate fixing frame is rotationally connected with the first screw rod; the first screw rod is fixedly connected with the eleventh transmission wheel; the outer surface of the first screw rod is in sliding connection with the internal thread sliding block; the internal thread sliding block is connected with the limiting sliding rod in a sliding manner; the limiting slide bar is fixedly connected with the double-plate fixing frame; the lower part of the internal thread sliding block is connected with the electric rotating shaft; the electric rotating shaft is sequentially connected with the first cleaning plate and the second cleaning plate; the double-plate fixing frame is connected with the electric heating wire; the upper part of the double-plate fixing frame is connected with the integrated hanging plate; the eleventh transmission wheel is connected with the seventh bevel gear.
In a preferred embodiment of the present invention, the first cleaning plate and the second cleaning plate are provided with a high temperature resistant rubber block at the inner sides close to the heating wire.
In a preferred embodiment of the invention, the first limiting slide groove plate is provided with two limiting slide groove plates which are respectively positioned at the front side and the rear side of the push rod.
In a preferred embodiment of the invention, a buffer rubber block is arranged on the right side of the push rod.
In a preferred embodiment of the invention, the first guide plate is provided with a through hole with the upper and lower width being the same as that of the buffer rubber block arranged on the right side of the push rod.
Compared with the prior art, the invention has the following advantages: 1. in order to solve the problems that in the prior art, mud generated in the process of paper making is recycled as a raw material, but the mud contains a large amount of plant fibers which are long and are pressed into bricks, because the plant fibers on the surface are adhered and carried when the pressing machine block is separated from the surface of the brick, the fibers are erected on the top surface of the autoclaved brick to influence the subsequent maintenance process of the autoclaved brick, meanwhile, the top surface of the autoclaved brick can have part of scattered and uncoagulated sand and stones, which affects the aesthetic property and the practicability of the autoclaved brick, the top surface of the autoclaved brick is often cleaned manually to remove the sand and the stones, and the autoclaved brick is often manually subjected to strength detection after being processed, the strength detection often needs manual tools to detect the strength of the autoclaved brick, the manual strength cannot be accurately controlled, and the continuous operation with unified strength standard cannot be carried out;
2. the method comprises the steps that a press forming mechanism, a brick body cleaning mechanism and a strength detection mechanism are designed, when the method is used, raw materials are firstly press-formed in the press forming mechanism, then the brick body cleaning mechanism cleans the top surface of the autoclaved brick and removes fibers, and finally the strength detection mechanism detects the strength of the formed autoclaved brick;
3. the rapid press forming of the autoclaved brick is realized, sand and gravel at the top of the formed autoclaved brick are cleaned, and the fibers rising from the top of the autoclaved brick are removed, so that the fibers are prevented from influencing the treatment of the autoclaved brick in subsequent autoclaved maintenance, and the strength of the formed autoclaved brick is automatically detected.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of a press forming mechanism according to the present invention;
FIG. 3 is a schematic structural view of a brick cleaning mechanism according to the present invention;
FIG. 4 is a schematic structural diagram of the strength detection mechanism of the present invention;
FIG. 5 is a right side view of a combination structure of a sixth driving wheel, a third bearing frame plate, a third spur gear, a first half gear, a first long control rod, a first hitting ball, a fourth spur gear, a seventh driving wheel, an eighth driving wheel, a fifth spur gear, a second half gear, a second long control rod and a second hitting ball according to the present invention;
FIG. 6 is a schematic view of the propulsion mechanism of the present invention;
FIG. 7 is a schematic view of the fiber removal mechanism of the present invention.
Wherein the figures include the following reference numerals: 1. a machine tool connecting bottom plate, 2, an elevating workbench, 3, an operation control screen, 4, a first conveyor belt, 5, an installation table, 6, a second conveyor belt, 7, a press forming mechanism, 8, a brick cleaning mechanism, 9, a strength detection mechanism, 10, an installation top plate, 701, a first electric push rod, 702, a first guide plate, 703, a propulsion mechanism, 704, a lower pressing column, 705, a lower pressing lifting control frame, 706, a forming cabin, 707, a second guide plate, 708, an upper top plate, 709, a first lifting column, 801, a power motor, 802, a first transmission wheel, 803, a second transmission wheel, 804, an aggregate hanger plate, 805, a first bevel gear, 806, a second bevel gear, 807, a first telescopic rotating shaft, 808, a first bearing sleeve plate, 809, a second electric push rod, 8010, a third bevel gear, 8011, an air pump, 8012, a collection air outlet pipe, 8013, an air inlet pipe, 8014, an exhaust pipe, 8015, A fiber removing mechanism, 8016, a sliding limiting frame, 8017, a pushing control rod, 8018, a spherical bump, 8019, an elastic telescopic column, 8020, a third electric push rod, 8021, a compression plate, 8022, a reset buffer spring, 8023, a brush roller, 8024, a first flat gear, 8025, an air flow nozzle, 8026, a fixed long plate, 8027, a second flat gear, 8028, a collection box, 8029, a sixth bevel gear, 8030, a seventh bevel gear, 901, a fourth bevel gear, 902, a fifth bevel gear, 903, a first rotating shaft rod, 904, a first bearing frame plate, 905, a third driving wheel, 906, a fourth driving wheel, 907, a fifth driving wheel, 908, a second rotating shaft rod, 909, a second bearing frame rod, 9010, a rotating disc, 9011, a linkage convex column, 9012, a linkage rectangular frame strip, 9013, a lower pressing strip, 9014, a sixth bearing, 9015, a third bearing frame plate, 9016, a third sliding gear, 9017, a third half gear, 9018, a transmission wheel, a third half gear, a 9018, a third sliding, The electric heating wire cleaning device comprises a first long control rod, a 9019, a first hitting ball, a 9020, a fourth flat gear, a 9021, a seventh driving wheel, a 9022, an eighth driving wheel, a 9023, a fifth flat gear, a 9024, a second half gear, a 9025, a second long control rod, a 9026, a second hitting ball, a 9027, a mounting hanging plate, 70301, a pushing rod, 70302, a first limiting sliding groove plate, 70303, a first rack rail plate, 70304, a fixed connecting frame, 70305, a sixth flat gear, 70306, a second rack rail plate, 70307, a long sliding block, 70308, a second limiting sliding groove plate, 70309, a first driving rod, 70310, a second driving rod, 70311, a ninth driving wheel, 70312, a tenth driving wheel, 801501, a double-plate fixing frame, 801502, a first lead screw, 801503, an eleventh driving wheel, 801504, an internal threaded sliding block, 801505, a limiting sliding rod, 801506, an electric rotating shaft, a 801507, a first cleaning plate, 801508, a second cleaning plate, a 801509 and an electric heating wire.
Detailed Description
It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as upper, lower, lateral, etc., refer also to the directly described and illustrated figures and are to be read into the new position in the sense of a change in position.
Example 1
A burning-off type steam-pressing brick processing device is shown in figures 1-7 and comprises a machine bed connecting bottom plate 1, an elevating workbench 2, an operation control screen 3, a first conveyor belt 4, a mounting table 5, a second conveyor belt 6, a press forming mechanism 7, a brick body cleaning mechanism 8, a strength detection mechanism 9 and a mounting top plate 10; the upper part of the machine tool connecting bottom plate 1 is welded with the elevating workbench 2; the upper part of the machine tool connecting bottom plate 1 is connected with a first conveyor belt 4; the upper part of the machine tool connecting bottom plate 1 is connected with a pressing forming mechanism 7; the upper part of the machine tool connecting bottom plate 1 is connected with a mounting top plate 10; the pressing and forming mechanism 7 is connected with the elevating workbench 2; the upper part of the elevating workbench 2 is sequentially connected with an operation control screen 3 and an installation platform 5; the upper part of the mounting table 5 is connected with a second conveyor belt 6; the mounting table 5 is connected with a compression molding mechanism 7; the pressing and forming mechanism 7 is connected with the brick body cleaning mechanism 8; the brick cleaning mechanism 8 is connected with the installation top plate 10; the mounting top plate 10 is connected with the strength detection mechanism 9; the strength detection mechanism 9 is connected with the brick cleaning mechanism 8.
When the burning-off type autoclaved brick processing device is used, firstly, the device is stably fixed to a working plane, then, a power supply is connected externally, the operation control screen 3 is manually opened, then, autoclaved brick raw materials are conveyed and added into the pressing and forming mechanism 7 through the second conveyor belt 6, then, the raw materials are pressed and formed in the pressing and forming mechanism 7, then, the formed autoclaved brick is conveyed to the position below the brick body cleaning mechanism 8 through the first conveyor belt 4, the brick body cleaning mechanism 8 cleans the top surface of the autoclaved brick and removes fibers, finally, the first conveyor belt 4 conveys the formed autoclaved brick to the position below the strength detection mechanism 9, the strength detection mechanism 9 detects the strength of the formed autoclaved brick, the rapid pressing and forming of the autoclaved brick is realized, the sand and crushed stones on the top of the formed autoclaved brick are cleaned, and the fibers rising from the top of the autoclaved brick are removed, the fiber is prevented from influencing the treatment of the pressed brick in the subsequent autoclaved maintenance, and the strength of the formed autoclaved brick is automatically detected.
The press forming mechanism 7 comprises a first electric push rod 701, a first guide plate 702, a propelling mechanism 703, a lower pressing column 704, a lower pressing lifting control frame 705, a forming cabin 706, a second guide plate 707, an upper top plate 708 and a first lifting column 709; the first electric push rod 701 is connected with the first guide plate 702; a propelling mechanism 703 is arranged below the first electric push rod 701; a lower pressure column 704 is arranged above the first guide plate 702; the lower pressing column 704 is connected with the lower pressing lifting control frame 705 in a sliding manner; a forming cabin 706 is arranged below the lower compression column 704; a second guide plate 707 is arranged on the right side of the forming cabin 706; an upper top plate 708 is arranged on the inner side of the forming cabin 706; a first lifting column 709 is connected below the upper top plate 708; the lower part of the first lifting column 709 is connected with a machine tool connecting base plate 1; the lower part of the second guide plate 707 is connected with the elevating workbench 2; the lower part of the forming cabin 706 is connected with an elevating workbench 2; the lower part of the downward-pressing lifting control frame 705 is connected with a machine tool connecting bottom plate 1; the lower part of the propelling mechanism 703 is connected with the elevating workbench 2; the propelling mechanism 703 is connected with the mounting table 5; the first electric push rod 701 is connected with the mounting table 5; the pushing mechanism 703 is connected with the brick cleaning mechanism 8.
Firstly, the second conveyor belt 6 conveys autoclaved brick raw materials, the autoclaved brick raw materials enter the forming cabin 706 through the first guide plate 702, then the lower pressure lifting control frame 705 is controlled to drive the lower pressure column 704 to move downwards, then the lower pressure column 704 is pressed downwards to enter the forming cabin 706, the raw materials are extruded and formed, then the lower pressure lifting control frame 705 is controlled to drive the lower pressure column 704 to move upwards, then the first lifting column 709 is controlled to drive the upper top plate 708 to rise, then the upper top plate 708 drives the formed autoclaved brick at the top of the formed autoclaved brick to move upwards to the height same as the horizontal line at the top of the forming cabin 706, at the moment, the pushing mechanism 703 pushes the autoclaved brick rightwards, and then the autoclaved brick slides to the second guide plate 707, and the autoclaved brick is pressed and formed.
The brick cleaning mechanism 8 comprises a power motor 801, a first driving wheel 802, a second driving wheel 803, a set hanging plate 804, a first bevel gear 805, a second bevel gear 806, a first telescopic rotating shaft 807, a first bearing sleeve plate 808, a second electric push rod 809, a third bevel gear 8010, an air pump 8011, a collecting air outlet pipe 8012, an air inlet pipe 8013, an air exhaust pipe 8014, a fiber removing mechanism 8015, a sliding limiting frame 8016, a propelling control rod 8017, a spherical bump 8018, an elastic telescopic column 8019, a third electric push rod 8020, a compression plate 8021, a reset buffer spring 8022, a brush roller 8023, a first flat gear 8024, an air flow nozzle 8025, a fixed long plate 8026, a second flat gear 8027, a collecting box 8028, a sixth bevel gear 8029 and a seventh bevel gear 8030; an output shaft of the power motor 801 is fixedly connected with the first driving wheel 802; the outer ring surface of the first driving wheel 802 is in transmission connection with a second driving wheel 803 through a belt; the second driving wheel 803 is connected with the set hanging plate 804; the outer annular surface of the second driving wheel 803 is in transmission connection with a first bevel gear 805 through a belt; the first bevel gear 805 is connected with the set hanging plate 804; first bevel gear 805 meshes with second bevel gear 806; the axis of the second bevel gear 806 is fixedly connected with the first telescopic rotating shaft 807; the first telescopic rotating shaft 807 is connected with the set hanging plate 804; the outer surface of the first telescopic rotating shaft 807 is rotatably connected with a first bearing sleeve plate 808; the first bearing sleeve plate 808 is connected with a second electric push rod 809; the lower part of the second electric push rod 809 is connected with the collecting hanging plate 804; the outer surface of the first telescopic rotating shaft 807 is fixedly connected with a third bevel gear 8010; the upper part of the collecting hanging plate 804 is connected with an air pump 8011 through a bolt; a collecting air outlet pipe 8012 is connected above the air pump 8011; the air pump 8011 is connected with the air inlet pipe 8013; the lower part of the air inlet pipe 8013 is connected with an exhaust pipe 8014; the lower part of the collecting hanging plate 804 is connected with a fiber removing mechanism 8015; the fiber removing mechanism 8015 is connected with a seventh bevel gear 8030; the lower part of the seventh bevel gear 8030 is connected with the collecting hanging plate 804; the seventh bevel gear 8030 meshes with the sixth bevel gear 8029; the axis of the sixth bevel gear 8029 is fixedly connected with the first telescopic rotating shaft 807; the collecting hanging plate 804 is connected with the sliding limiting frame 8016; the sliding limiting frame 8016 is in sliding connection with the pushing control rod 8017; a spherical bump 8018 is arranged above the propelling control rod 8017; the upper part of the spherical bump 8018 is connected with an elastic telescopic column 8019; the elastic telescopic column 8019 is connected with a third electric push rod 8020; the push lever 8017 is coupled to the compression plate 8021; the lower part of the compression plate 8021 is connected with a return buffer spring 8022; the lower part of the reset buffer spring 8022 is connected with the sliding limiting frame 8016; the propulsion control lever 8017 is in rotational connection with the brush roller 8023; the axis of the brush roller 8023 is fixedly connected with the first flat gear 8024; the sliding limiting frame 8016 is connected with the airflow nozzle 8025; the lower part of the collecting hanging plate 804 is connected with a fixed long plate 8026; the fixed long plate 8026 is rotatably connected with the second flat gear 8027; the rear side of the outer ring surface of the second flat gear 8027 is in transmission connection with a second transmission wheel 803 through a belt; the collection air outlet pipe 8012 is connected with the collection box 8028; the lower part of the collecting box 8028 is connected with a collecting hanging plate 804; the upper part of the integrated hanging plate 804 is connected with the installation top plate 10; the upper part of the elastic telescopic column 8019 is connected with the mounting top plate 10; the upper part of the third electric push rod 8020 is connected with the installation top plate 10; the lower part of the power motor 801 is connected with the mounting top plate 10; the first driving wheel 802 is connected with the propelling mechanism 703; the first driving pulley 802 is connected to the strength detection mechanism 9.
Firstly, the first conveyor belt 4 drives the formed autoclaved brick to move below the brick cleaning mechanism 8, then the power supply of the power motor 801 is switched on under the control of the operation control screen 3, then the power motor 801 drives the first driving wheel 802 to rotate, further the first driving wheel 802 drives the second driving wheel 803 to rotate, further the second driving wheel 803 drives the second flat gear 8027 to rotate, at this time, the autoclaved brick moves below the brush roller 8023, then the third electric push rod 8020 is controlled to push out leftwards, further the third electric push rod 8020 drives the elastic telescopic column 8019 to slide leftwards under the mounting top plate 10, further the elastic telescopic column 8019 drives the spherical lug 8018 to move leftwards, further the convex part of the spherical 8018 drives the propulsion control rod 8017 to move downwards, further the propulsion control rod 8017 slides downwards on the inner side of the sliding limiting frame 8016, the propulsion control rod 8017 drives the compression plate 8021 to move downwards, and the compression plate 8021 compresses the reset buffer spring 8022 downwards, further, the control rod 8017 is pushed to drive the brush roller 8023 and the first flat gear 8024 to move downwards, that is, the first flat gear 8024 moves downwards to a position where the first flat gear 8024 is meshed with the second flat gear 8027, at this time, the second flat gear 8027 drives the first flat gear 8024 to rotate, then the first flat gear 8024 drives the brush roller 8023 to rotate, then the brush roller 8023 rotates to clean the top end surface of the autoclaved brick, meanwhile, airflow is ejected by the airflow nozzle 8025 to blow away stones and sand at the top end of the autoclaved brick so as to separate from the autoclaved brick, then the air pump 8011 pumps air through the air inlet pipe 8013 and the air pumping pipe 8014, then the air pumping pipe 8014 collects and cleans residual small sand particles at the top of the autoclaved brick, the collected air enters the collecting box 8028 through the collecting air outlet pipe 8012, and the airflow generated in the air pumping process of the air pump 8014 enables fibers at the top of the autoclaved brick to be upright under the action of the airflow, then the first conveyor belt 4 drives the formed autoclaved brick to move to the position below the fiber removing mechanism 8015, at this time, the second driving wheel 803 drives the first bevel gear 805 to rotate, and then the first bevel gear 805 drives the second bevel gear 806 to rotate, then the second bevel gear 806 drives the first telescopic rotating shaft 807 to rotate, and then the first telescopic rotating shaft 807 drives the sixth bevel gear 8029 to rotate, and then the sixth bevel gear 8029 drives the seventh bevel gear 8030 to rotate, and then the seventh bevel gear 8030 drives the fiber removing mechanism 8015 to rotate, and then the fiber removing mechanism 8015 carries out the burn-off treatment on the rising limit at the top of the autoclaved brick, so that the second electric push rod 809 can be controlled to shrink, and then the second electric push rod 809 drives the first telescopic rotating shaft 807 to shrink through the first bearing sleeve plate 808, and then the first telescopic rotating shaft 807 drives the third bevel gear 8010 to mesh with the first bevel gear 805, and then the second bevel gear 806 is disengaged with the first bevel gear 805, and then the third bevel gear 8010 drives the first bevel gear 805 to rotate reversely, so that the fiber removing mechanism 8015 can be driven to reset, and the cleaning treatment on the top end surface of the autoclaved brick is completed.
The strength detection mechanism 9 comprises a fourth bevel gear 901, a fifth bevel gear 902, a first rotating shaft rod 903, a first bearing frame plate 904, a third driving wheel 905, a fourth driving wheel 906, a fifth driving wheel 907, a second rotating shaft rod 908, a second bearing frame plate 909, a rotating disc 9010, a linkage convex column 9011, a linkage rectangular frame strip 9012, a lower pressing strip 9013, a sixth driving wheel 9014, a third bearing frame plate 9015, a third flat gear 9016, a first half gear 9017, a first control long rod 9018, a first striking ball 9019, a fourth flat gear 9020, a seventh driving wheel 9021, an eighth driving wheel 9022, a fifth flat gear 9023, a second half gear 9024, a second control long rod 9025, a second striking ball 9026 and a mounting hanging plate 9027; the fourth bevel gear 901 is meshed with the fifth bevel gear 902; the axis of the fifth bevel gear 902 is fixedly connected with the first rotating shaft rod 903; the outer surface of the first rotating shaft 903 is rotatably connected with the first bearing frame plate 904; the first rotating shaft rod 903 is fixedly connected with a third driving wheel 905; the outer ring surface of the third driving wheel 905 is in transmission connection with a fourth driving wheel 906 through a belt; the axle center of the fourth driving wheel 906 is fixedly connected with the second rotating shaft rod 908; the outer surface of the second rotating shaft rod 908 is fixedly connected with a fifth driving wheel 907; the outer surface of the second spindle shaft 908 is rotatably connected to a second bearing bracket 909; the lower part of the second bearing frame plate 909 is connected with a mounting hanging plate 9027 through bolts; the second rotating shaft rod 908 is fixedly connected with the rotating disc 9010; the rotary disc 9010 is spliced with the linkage convex column 9011; the outer surface of the linkage convex column 9011 is in transmission connection with a linkage rectangular frame strip 9012; the lower part of the linkage rectangular frame strip 9012 is connected with a lower pressing strip 9013; the outer surface of the lower pressing bar 9013 is in sliding connection with the mounting hanging plate 9027; the outer ring surface of the fifth driving wheel 907 is in transmission connection with a sixth driving wheel 9014 through a belt; the axis of the sixth transmission wheel 9014 is rotatably connected with the third bearing frame plate 9015; the upper part of the third bearing frame plate 9015 is connected with a mounting hanging plate 9027; the axis of the sixth transmission wheel 9014 is fixedly connected with the third horizontal gear 9016; the lower part of the third flat gear 9016 is meshed with the first half gear 9017; the axle center of the first half gear 9017 is fixedly connected with the first long control rod 9018; the first long control rod 9018 is rotatably connected with the third bearing frame plate 9015; the lower part of the first long control rod 9018 is fixedly connected with a first hitting ball 9019; the third flat gear 9016 is meshed with the fourth flat gear 9020; the axle center of the fourth flat gear 9020 is fixedly connected with a seventh transmission wheel 9021; the axle center of the seventh transmission wheel 9021 is rotatably connected with the third bearing frame plate 9015; the outer ring surface of the seventh driving wheel 9021 is in transmission connection with the eighth driving wheel 9022 through a belt; the axle center of the eighth transmission wheel 9022 is rotatably connected with the third bearing frame plate 9015; the axle center of the eighth transmission wheel 9022 is fixedly connected with the fifth flat gear 9023; the lower part of the fifth flat gear 9023 is meshed with the second half gear 9024; the axle center of the second half gear 9024 is fixedly connected with a second long control rod 9025; the second long control rod 9025 is rotatably connected with the third bearing frame plate 9015; the lower part of the second long control rod 9025 is fixedly connected with a second striking ball 9026; the fourth bevel gear 901 is connected with the mounting top plate 10; the lower part of the first bearing frame plate 904 is connected with the installation top plate 10; the upper part of the mounting hanging plate 9027 is connected with the mounting top plate 10; the fourth bevel gear 901 is connected to the first drive wheel 802.
Firstly, the first conveyor belt 4 drives the formed autoclaved brick to move to the position below the strength detection mechanism 9, then the first drive wheel 802 drives the fourth bevel gear 901 to rotate through a belt, then the fourth bevel gear 901 drives the fifth bevel gear 902 to rotate, then the fifth bevel gear 902 drives the first rotating shaft rod 903 and the third drive wheel 905 to rotate, then the third drive wheel 905 drives the fourth drive wheel 906 to rotate through a belt, further the fourth drive wheel 906 drives the fifth drive wheel 907 to rotate, then the fourth drive wheel 906 drives the rotating disc 9010 to rotate through the second rotating shaft rod 908, then the rotating disc 9010 drives the linkage convex column 9011 to rotate, then the linkage convex column 9011 drives the linkage rectangular frame strip 9012 to reciprocate up and down, further the linkage rectangular frame strip 9012 drives the lower pressing strip 9013 to move up and down, further the lower pressing strip 9013 impacts the top of the autoclaved brick with a certain strength, then the fifth driving wheel 907 drives the sixth driving wheel 9014 to rotate, then the sixth driving wheel 9014 drives the third gear 9016 to rotate, then the third gear 9016 drives the first half gear 9017 to rotate, then the first half gear 9017 drives the first long control rod 9018 to rotate, namely, the first long control rod 9018 drives the first hitting ball 9019 to swing, simultaneously the third gear 9016 drives the fourth gear 9020 to rotate, then the fourth gear 9020 drives the seventh driving wheel 9021 to rotate, then the seventh driving wheel 9021 drives the eighth driving wheel 9022 to rotate, further the eighth driving wheel 9022 drives the fifth gear 9023 to rotate, further the fifth gear 9023 drives the second half gear 9024 to rotate, further the second half gear 9024 drives the second long control rod 9025 to rotate, further the second long control rod 9025 drives the second hitting ball 9026 to swing outwards, and at this time, the press brick is located in the middle position between the second hitting ball 9026 and the first hitting ball 9019, and then the second hitting ball 9026 and the first hitting ball 9019 swing respectively to impact the two sides of the autoclaved brick, and further the detection of the strength of the autoclaved brick is completed.
The propelling mechanism 703 comprises a propelling rod 70301, a first limit sliding chute plate 70302, a first rack rail plate 70303, a fixed connecting frame 70304, a sixth flat gear 70305, a second rack rail plate 70306, a long sliding block 70307, a second limit sliding chute plate 70308, a first transmission rod 70309, a second transmission rod 70310, a ninth 70driving wheel 311 and a tenth driving wheel 70312; the push rod 70301 is in sliding connection with the first limiting sliding groove plate 70302; the lower part of the push rod 70301 is connected with a first rack rail plate 70303 through bolts; the lower part of the first limit chute plate 70302 is fixedly connected with a fixed connecting frame 70304; the lower part of the first rack rail plate 70303 is meshed with a sixth flat gear 70305; the sixth flat gear 70305 is rotatably connected with the fixed connecting frame 70304; the lower part of the sixth flat gear 70305 is meshed with the second rack rail plate 70306; the lower part of the second rack rail plate 70306 is connected with a long slide block 70307; the outer surface of the long slide block 70307 is in sliding connection with a second limiting slide groove plate 70308; the long slide block 70307 is rotatably connected with the first transmission rod 70309; the first transmission rod 70309 is rotationally connected with the second transmission rod 70310; the second transmission rod 70310 is fixedly connected with the ninth driving wheel 70311; the outer ring surface of the ninth driving wheel 70311 is in driving connection with a tenth driving wheel 70312 through a belt; the tenth driving wheel 70312 is connected with the elevating table 2; the ninth driving wheel 70311 is connected with the mounting table 5; the lower part of the second limiting sliding groove plate 70308 is connected with the elevating workbench 2; the fixed connecting frame 70304 is connected with the mounting table 5; the tenth driving wheel 70312 is connected to the first driving wheel 802.
First, the first driving wheel 802 drives the tenth driving wheel 70312 to rotate, and then the tenth driving wheel 70312 drives the ninth driving wheel 70311 to rotate, and then the ninth driving wheel 70311 drives the second driving rod 70310 to rotate, and then the second driving rod 70310 drives the first driving rod 70309 to rotate, and then the second driving rod 70310 drives the strip slider 70307 to slide on the inner side of the second limiting chute plate 70308, and then the second limiting chute plate 70308 drives the second rack plate 70306 to move, and then the second rack plate 70306 moves to drive the sixth flat gear 70305 to rotate, and then the sixth flat gear 70305 drives the first rack plate 70303 to move rightward, and then the first rack plate 70303 drives the pushing rod 70301 to slide rightward on the inner side of the first limiting chute plate 70302, and then the pushing rod 70301 is pushed out rightward, and then the autoclaved brick above the upper top plate is pushed out rightward 708.
The fiber removing mechanism 8015 comprises a double-plate fixing frame 801501, a first screw rod 801502, an eleventh driving wheel 801503, an internal thread slider 801504, a limit sliding rod 801505, an electric rotating shaft 801506, a first cleaning plate 801507, a second cleaning plate 801508 and an electric heating wire 801509; the double-plate fixing frame 801501 is rotationally connected with the first screw rod 801502; the first lead screw 801502 is fixedly connected with an eleventh driving wheel 801503; the outer surface of the first lead screw 801502 is in sliding connection with the internal thread slider 801504; the internal thread slider 801504 is in sliding connection with the limit slide bar 801505; the limit slide bar 801505 is fixedly connected with the double-plate fixing frame 801501; the lower part of the internal thread slider 801504 is connected with an electric rotating shaft 801506; the electric rotating shaft 801506 is connected with the first cleaning plate 801507 and the second cleaning plate 801508 in turn; the double-plate fixing frame 801501 is connected with the heating wire 801509; the upper part of the double-plate fixing frame 801501 is connected with the integrated hanging plate 804; the eleventh transfer wheel 801503 is coupled to a seventh bevel gear 8030.
Firstly, the power supply of the heating wire 801509 is switched on, then the rising fiber at the top of the autoclaved brick contacts the heating wire 801509, the fibers are then burned off by the heating wire 801509 and attached to the two sides of the heating wire 801509, then the seventh bevel gear 8030 drives the eleventh driving wheel 801503 to rotate, and further the eleventh driving wheel 801503 drives the first lead screw 801502 to rotate, then the first lead screw 801502 rotates to drive the internal thread slider 801504 to move, further, the internal thread slider 801504 slides on the outer surface of the limit slide bar 801505, and at the same time, the electric rotating shaft 801506 is controlled to drive the first cleaning plate 801507 and the second cleaning plate 801508 to rotate, that is, the first cleaning plate 801507 and the second cleaning plate 801508 are attached to the left and right sides of the heating wire 801509, then the internal thread slider 801504 drives the first cleaning plate 801507 and the second cleaning plate 801508 to be attached to the left and right sides of the heating wire 801509 for attaching movement, and the fiber adhered to the surface of the heating wire 801509 is removed, and the burning-off removal of the fiber on the top of the autoclaved brick is completed.
The first cleaning plate 801507 and the second cleaning plate 801508 are provided with high temperature resistant rubber blocks on the inner sides close to the heating wire 801509.
So as to improve the contact tightness of the first and second cleaning plates 801507 and 801508 with the heating wire 801509.
The first limit chute plates 70302 are provided in two numbers, respectively on the front side and the rear side of the push rod 70301.
So as to ensure stable sliding of the push rod 70301.
The right side of the push rod 70301 is provided with a buffer rubber block.
The surface of the brick is prevented from being poked out of the pit during pushing the autoclaved brick to the right by the pushing bar 70301.
The first guide plate 702 is provided with a through hole with the upper and lower width the same as that of the buffer rubber block arranged on the right side of the push rod 70301.
So that the right side of the pushing rod 70301 is provided with a buffer rubber block which can push the autoclaved brick rightwards through the through hole.
It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.
Claims (10)
1. The utility model provides a formula of burning off autoclaved brick processing apparatus, includes that organic bed connects bottom plate, erects high workstation and operation control screen, characterized by: the brick body cleaning device also comprises a first conveyor belt, a mounting table, a second conveyor belt, a press forming mechanism, a brick body cleaning mechanism, a strength detection mechanism and a mounting top plate; the upper part of the machine tool connecting bottom plate is welded with the elevating workbench; the upper part of the machine tool connecting bottom plate is connected with a first conveyor belt; the upper part of the machine tool connecting bottom plate is connected with a pressing forming mechanism; the upper part of the machine tool connecting bottom plate is connected with the mounting top plate; the pressing forming mechanism is connected with the elevating workbench; the upper part of the elevating workbench is sequentially connected with the operation control screen and the mounting platform; the upper part of the mounting table is connected with a second conveyor belt; the mounting table is connected with the pressing forming mechanism; the pressing and forming mechanism is connected with the brick cleaning mechanism; the brick cleaning mechanism is connected with the mounting top plate; the mounting top plate is connected with the strength detection mechanism; the strength detection mechanism is connected with the brick cleaning mechanism.
2. The apparatus for treating a burnt-off autoclaved brick as claimed in claim 1, wherein: the pressing and forming mechanism comprises a first electric push rod, a first guide plate, a propelling mechanism, a lower pressure column, a lower pressing lifting control frame, a forming cabin, a second guide plate, an upper top plate and a first lifting column; the first electric push rod is connected with the first guide plate; a propelling mechanism is arranged below the first electric push rod; a lower pressure column is arranged above the first guide plate; the lower pressing column is in sliding connection with the lower pressing lifting control frame; a forming cabin is arranged below the lower compression column; a second guide plate is arranged on the right side of the forming cabin; an upper top plate is arranged on the inner side of the forming cabin; the lower part of the upper top plate is connected with a first lifting column; the lower part of the first lifting column is connected with a machine tool connecting bottom plate; the lower part of the second guide plate is connected with the elevating workbench; the lower part of the forming cabin is connected with an elevating workbench; the lower part of the downward-pressing lifting control frame is connected with a machine tool connecting bottom plate; the lower part of the propelling mechanism is connected with an elevating workbench; the propelling mechanism is connected with the mounting table; the first electric push rod is connected with the mounting table; the pushing mechanism is connected with the brick cleaning mechanism.
3. The apparatus for treating a burnt-off autoclaved brick as claimed in claim 2, wherein: the brick cleaning mechanism comprises a power motor, a first driving wheel, a second driving wheel, a collecting hanging plate, a first bevel gear, a second bevel gear, a first telescopic rotating shaft, a first bearing sleeve plate, a second electric push rod, a third bevel gear, an air pump, a collecting air outlet pipe, an air inlet pipe, an air exhaust pipe, a fiber removing mechanism, a sliding limiting frame, a propelling control rod, a spherical lug, an elastic telescopic column, a third electric push rod, a compression plate, a reset buffer spring, a hairbrush roller, a first flat gear, an air flow nozzle, a fixed long plate, a second flat gear, a collecting box, a sixth bevel gear and a seventh bevel gear; an output shaft of the power motor is fixedly connected with the first driving wheel; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the second driving wheel is connected with the integrated hanging plate; the outer ring surface of the second driving wheel is in transmission connection with the first bevel gear through a belt; the first bevel gear is connected with the set hanging plate; the first bevel gear is meshed with the second bevel gear; the second bevel gear core is fixedly connected with the first telescopic rotating shaft; the first telescopic rotating shaft is connected with the integrated hanging plate; the outer surface of the first telescopic rotating shaft is rotatably connected with the first bearing sleeve plate; the first bearing sleeve plate is connected with the second electric push rod; the lower part of the second electric push rod is connected with the integrated hanging plate; the outer surface of the first telescopic rotating shaft is fixedly connected with a third bevel gear; the upper part of the integrated hanging plate is connected with an air pump through bolts; the upper part of the air pump is connected with a collecting air outlet pipe; the air pump is connected with the air inlet pipe; the lower part of the air inlet pipe is connected with an exhaust pipe; the lower part of the integrated hanging plate is connected with a fiber removing mechanism; the fiber removing mechanism is connected with the seventh bevel gear; the lower part of the seventh bevel gear is connected with a set hanging plate; the seventh bevel gear is meshed with the sixth bevel gear; the axis of the sixth bevel gear is fixedly connected with the first telescopic rotating shaft; the integrated hanging plate is connected with the sliding limiting frame; the sliding limiting frame is in sliding connection with the propelling control rod; a spherical convex block is arranged above the propelling control rod; the upper part of the spherical convex block is connected with the elastic telescopic column; the elastic telescopic column is connected with the third electric push rod; the propulsion control rod is connected with the compression plate; the lower part of the compression plate is connected with a reset buffer spring; the lower part of the reset buffer spring is connected with the sliding limiting frame; the propelling control rod is rotationally connected with the brush roller; the axis of the brush roller is fixedly connected with the first flat gear; the sliding limiting frame is connected with the airflow nozzle; the lower part of the integrated hanging plate is connected with the fixed long plate; the fixed long plate is rotationally connected with the second flat gear; the rear side of the outer ring surface of the second flat gear is in transmission connection with a second transmission wheel through a belt; the collecting air outlet pipe is connected with the collecting box; the lower part of the collecting box is connected with a collecting hanging plate; the upper part of the integrated hanging plate is connected with the mounting top plate; the upper part of the elastic telescopic column is connected with the mounting top plate; the upper part of the third electric push rod is connected with the mounting top plate; the lower part of the power motor is connected with the mounting top plate; the first driving wheel is connected with the propelling mechanism; the first driving wheel is connected with the strength detection mechanism.
4. A device for treating a burnt-off autoclaved brick as claimed in claim 3, wherein: the strength detection mechanism comprises a fourth bevel gear, a fifth bevel gear, a first rotating shaft rod, a first bearing frame plate, a third driving wheel, a fourth driving wheel, a fifth driving wheel, a second rotating shaft rod, a second bearing frame plate, a rotating disc, a linkage convex column, a linkage rectangular frame strip, a lower pressing strip, a sixth driving wheel, a third bearing frame plate, a third bevel gear, a first half gear, a first control long rod, a first hitting ball, a fourth bevel gear, a seventh driving wheel, an eighth driving wheel, a fifth bevel gear, a second half gear, a second control long rod, a second hitting ball and a mounting hanger plate; the fourth bevel gear is meshed with the fifth bevel gear; the axis of the fifth bevel gear is fixedly connected with the first rotating shaft rod; the outer surface of the first rotating shaft rod is rotationally connected with the first bearing frame plate; the first rotating shaft rod is fixedly connected with the third driving wheel; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the axle center of the fourth driving wheel is fixedly connected with the second rotating shaft rod; the outer surface of the second rotating shaft rod is fixedly connected with a fifth driving wheel; the outer surface of the second rotating shaft rod is rotatably connected with the second bearing frame plate; the lower part of the second bearing frame plate is connected with the mounting hanging plate through bolts; the second rotating shaft rod is fixedly connected with the rotating disc; the rotary disc is inserted with the linkage convex column; the outer surface of the linkage convex column is in transmission connection with the linkage rectangular frame strip; the lower part of the linkage rectangular frame strip is connected with the lower pressing strip; the outer surface of the lower pressing strip is in sliding connection with the mounting hanging plate; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the axis of the sixth transmission wheel is rotationally connected with the third bearing frame plate; the upper part of the third bearing frame plate is connected with the mounting hanging plate; the axle center of the sixth driving wheel is fixedly connected with the third horizontal gear; the lower part of the third spur gear is meshed with the first half gear; the axle center of the first half gear is fixedly connected with a first long control rod; the first control long rod is rotatably connected with the third bearing frame plate; the lower part of the first control long rod is fixedly connected with the first hitting ball; the third flat gear is meshed with the fourth flat gear; the axle center of the fourth flat gear is fixedly connected with the seventh transmission wheel; the axle center of the seventh transmission wheel is rotationally connected with the third bearing frame plate; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the axle center of the eighth transmission wheel is rotationally connected with the third bearing frame plate; the axle center of the eighth driving wheel is fixedly connected with the fifth flat gear; the lower part of the fifth flat gear is meshed with the second half gear; the axle center of the second half gear is fixedly connected with a second long control rod; the second control long rod is rotatably connected with the third bearing frame plate; the lower part of the second control long rod is fixedly connected with a second striking ball; the fourth bevel gear is connected with the mounting top plate; the lower part of the first bearing frame plate is connected with the mounting top plate; the upper part of the mounting hanging plate is connected with the mounting top plate; the fourth bevel gear is connected with the first driving wheel.
5. The apparatus for treating a burnt-off autoclaved brick as claimed in claim 4, wherein: the propelling mechanism comprises a propelling rod, a first limiting sliding chute plate, a first rack rail plate, a fixed connecting frame, a sixth flat gear, a second rack rail plate, a long slide block, a second limiting sliding chute plate, a first transmission rod, a second transmission rod, a ninth transmission wheel and a tenth transmission wheel; the push rod is connected with the first limiting sliding groove plate in a sliding manner; the lower part of the push rod is connected with the first rack rail plate through a bolt; the lower part of the first limiting chute plate is fixedly connected with the fixed connecting frame; the lower part of the first rack rail plate is meshed with a sixth flat gear; the sixth flat gear is rotationally connected with the fixed connecting frame; the lower part of the sixth flat gear is meshed with the second rack rail plate; the lower part of the second rack rail plate is connected with the long slide block; the outer surface of the long slide block is in sliding connection with the second limiting slide groove plate; the long slide block is rotationally connected with the first transmission rod; the first transmission rod is rotationally connected with the second transmission rod; the second transmission rod is fixedly connected with the ninth transmission wheel; the outer ring surface of the ninth driving wheel is in transmission connection with the tenth driving wheel through a belt; the tenth driving wheel is connected with the elevating workbench; the ninth driving wheel is connected with the mounting table; the lower part of the second limiting sliding groove plate is connected with an elevating workbench; the fixed connecting frame is connected with the mounting table; the tenth driving wheel is connected with the first driving wheel.
6. The apparatus for treating a burnt-off autoclaved brick as claimed in claim 5, wherein: the fiber removing mechanism comprises a double-plate fixing frame, a first screw rod, an eleventh driving wheel, an internal thread sliding block, a limiting sliding rod, an electric rotating shaft, a first cleaning plate, a second cleaning plate and an electric heating wire; the double-plate fixing frame is rotationally connected with the first screw rod; the first screw rod is fixedly connected with the eleventh transmission wheel; the outer surface of the first screw rod is in sliding connection with the internal thread sliding block; the internal thread sliding block is connected with the limiting sliding rod in a sliding manner; the limiting slide bar is fixedly connected with the double-plate fixing frame; the lower part of the internal thread sliding block is connected with the electric rotating shaft; the electric rotating shaft is sequentially connected with the first cleaning plate and the second cleaning plate; the double-plate fixing frame is connected with the electric heating wire; the upper part of the double-plate fixing frame is connected with the integrated hanging plate; the eleventh transmission wheel is connected with the seventh bevel gear.
7. The apparatus for treating a burnt-off autoclaved brick as claimed in claim 6, wherein: the inner sides of the first cleaning plate and the second cleaning plate close to the electric heating wire are both provided with high temperature resistant rubber blocks.
8. The apparatus for treating a burnt-off autoclaved brick as claimed in claim 7, wherein: the first limiting sliding groove plates are arranged in two numbers and are respectively positioned on the front side and the rear side of the push rod.
9. The apparatus for treating a burnt-off autoclaved brick as claimed in claim 8, wherein: the right side of the push rod is provided with a buffer rubber block.
10. The apparatus for treating a burnt-off autoclaved brick as claimed in claim 9, wherein: the first guide plate is provided with a through hole with the same width as the buffer rubber block, wherein the upper width and the lower width of the through hole are equal to the width of the through hole on the right side of the pushing rod.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202011107961.4A CN112248191A (en) | 2020-10-16 | 2020-10-16 | Burning-off type steam-pressing brick processing device |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202011107961.4A CN112248191A (en) | 2020-10-16 | 2020-10-16 | Burning-off type steam-pressing brick processing device |
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| Publication Number | Publication Date |
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| CN112248191A true CN112248191A (en) | 2021-01-22 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202011107961.4A Withdrawn CN112248191A (en) | 2020-10-16 | 2020-10-16 | Burning-off type steam-pressing brick processing device |
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| Country | Link |
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| CN (1) | CN112248191A (en) |
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| CN113059530A (en) * | 2021-02-20 | 2021-07-02 | 佛山市南海区德弗尼卫浴有限公司 | Special tourmaline ceramic tile processingequipment in sweat evaporates room |
| CN113232273A (en) * | 2021-04-14 | 2021-08-10 | 杜敏枝 | Wind power generation blade root prefabricated part production and processing device |
| CN114425813A (en) * | 2022-01-20 | 2022-05-03 | 三峡大学 | High-strength compact phosphogypsum-based aggregate molding preparation system and preparation method |
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| CN114425813B (en) * | 2022-01-20 | 2023-09-19 | 三峡大学 | High-strength compact phosphogypsum-based aggregate molding preparation system and preparation method |
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Application publication date: 20210122 |