CN109773954A - A kind of non-burning brick brickmaking production system - Google Patents

A kind of non-burning brick brickmaking production system Download PDF

Info

Publication number
CN109773954A
CN109773954A CN201910242972.4A CN201910242972A CN109773954A CN 109773954 A CN109773954 A CN 109773954A CN 201910242972 A CN201910242972 A CN 201910242972A CN 109773954 A CN109773954 A CN 109773954A
Authority
CN
China
Prior art keywords
mold
conveyer
rack
elevating mechanism
fixedly connected
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
CN201910242972.4A
Other languages
Chinese (zh)
Inventor
刘丽丽
韩翔
经伟
周兴军
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Xuzhou University of Technology
Original Assignee
Xuzhou University of Technology
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Xuzhou University of Technology filed Critical Xuzhou University of Technology
Priority to CN201910242972.4A priority Critical patent/CN109773954A/en
Publication of CN109773954A publication Critical patent/CN109773954A/en
Withdrawn legal-status Critical Current

Links

Landscapes

  • Devices For Post-Treatments, Processing, Supply, Discharge, And Other Processes (AREA)

Abstract

A kind of non-burning brick brickmaking production system, mold circulation conveying mechanism include mold cyclic track and mold;The left side end plate lower part of mold opens up jagged, and the center in rear and front end face offers the locator receiver groove equipped with locating piece;A pair of bearings in a pair of of sliding slot is contacted with the guidance tape in mold cyclic track respectively, and affixed with two locating pieces respectively by connecting rod;Pressure brick and clip mechanism are respectively provided at the left and right side inside mold circulation conveying mechanism;Brick pressing mechanism includes pressing plate, vertical plate A and two elevating mechanism A;Clip mechanism includes transverse slat, multiple cutters, vertical plate B and two elevating mechanism B;Material guide mechanism includes two bracket A and multiple rollers;It includes rack B, loading plate, elevating mechanism C, telescoping mechanism A and telescoping mechanism B that baffle, which promotes delivery device,;Blender is located at the upper left of mold circulation conveying mechanism;Separating table branch is located at the right side of material guide mechanism.Artificial labor intensity can be effectively reduced in the system, can improve production efficiency.

Description

A kind of non-burning brick brickmaking production system
Technical field
The invention belongs to build and equipment for bridge construction technical field, and in particular to a kind of non-burning brick brickmaking production system.
Background technique
Non-burning brick is a kind of to utilize flyash, cinder, gangue, mine tailings, residue of chemical industry or natural sand, tidal land mud etc. (one or several kinds of the above raw material) are used as primary raw material, a kind of novel wall material manufactured without high-temperature calcination, with it Many advantages, such as raw material sources are extensively, energy-conserving profit waste, intensity is high, not afraid of water, weathering resistance corrosion freeze thawing has obtained increasingly wider General application, demand also increasingly increase.Non-burning brick production procedure includes: stirring spice, brickmaking machine compacting and adobe maintenance Deng.
In existing brickmaking production system, each mold needs successively to carry out the filling of cement slurry, and each filling process In can there is a situation where, by overflowing in mold, cause biggish waste by cement slurry;In addition, mold in existing production system It after use, needs by manually being demoulded, then the unloading position for rear mold will be demoulded putting cement slurry, this mistake Journey needs realize that work load intensity is big, and production efficiency is lower by manually.
Summary of the invention
In view of the above existing problems in the prior art, the present invention provides a kind of non-burning brick brickmaking production system, the production systems System can effectively reduce the wastage of raw material in filling process, can automatically carry out stripping operation, and can be effectively reduced artificial Labor intensity, and production efficiency can be improved.
To achieve the goals above, the present invention provides a kind of non-burning brick brickmaking production system, including rack A, blender, pressure Brick mechanism, clip mechanism, material guide mechanism, baffle promote delivery device, multiple partition panels and separating table;
The top of rack A is provided with the mold circulation conveying mechanism of left and right directions extension, middle part left side, the right side of rack A It is respectively arranged with the first conveyer, the second conveyor of left and right directions extension, the right end of the first conveyer and second conveyor Left end is neighboringly arranged, and the carrying section flush of the first conveyer and second conveyor be arranged;The lower part of rack A is provided with Third conveyer, third conveyer are extended to the right side of second conveyor right end by the left end of the first conveyer;
The top of the first conveyer, second conveyor is arranged in mold circulation conveying mechanism;Mold cyclic conveyor Structure includes two mold cyclic tracks of the annular that front and back is oppositely arranged and is arranged in multiple between two upper mold cyclic tracks Mold;Two mold cyclic tracks are by two between two vertical section upper and lower sides of two vertical sections of left and right ends and connection A horizontal segment composition, wherein the junction of vertical section and horizontal segment is arcuate structure;The opposite side of two mold cyclic tracks Offer a pair of of sliding slot;The guidance tape of annular is provided in a pair of of sliding slot;Guidance tape is by being arranged in outside mold cyclic track Driving motor driving;The left side end plate lower part of each mold open up it is jagged, on the outside of the rear and front end face of each mold in The symmetrical center positions of left and right directions offer locator receiver groove, and are each equipped with two in former and later two locator receiver grooves A locating piece;A pair of bearings corresponding with two two locating pieces in each mold, a pair of bearings are provided in a pair of of sliding slot Cooperated respectively with the guidance tape CONTACT WITH FRICTION in a pair of of sliding slot by its outer ring, and the company by being securely fitted in circle center in it Bar is fixedly connected with the outer side center of two locating pieces respectively;
The brick pressing mechanism and clip mechanism pass through respectively rack A be connected to mold circulation conveying mechanism inside left and Right side;Brick pressing mechanism includes horizontally disposed pressing plate, the vertical plate A for being vertically connected on pressing plate upper surface and is oppositely disposed at pressing plate Two elevating mechanism A of front and rear sides;It is relatively vertical before and after the fixing end of described two elevating mechanism A to be fixedly connected on machine The inside of frame A;The upper end of the vertical plate A is fixedly connected with two connection otic placode B of setting corresponding with two elevating mechanism A, And the outer end of two connection otic placode B is fixedly connected with the telescopic end of two elevating mechanism A respectively;In the size and mold of pressing plate The size of chamber is adapted;
The clip mechanism includes horizontally disposed transverse slat, the multiple cutters for being vertically connected on transverse slat lower end surface, vertically exists The vertical plate B of transverse slat upper surface and two elevating mechanism B for being oppositely disposed at transverse slat front and rear sides;Described two elevating mechanism B Fixing end before and after the relatively vertical inside for being fixedly connected on rack A;The upper end of the vertical plate B is fixedly connected with and two Two connection otic placode B of the corresponding setting of elevating mechanism B, and the outer end of two connection otic placode B respectively with two elevating mechanism B Telescopic end be fixedly connected;Cutter left and right directions extends, and its size is adapted with the size of mold inner-cavity;
The material guide mechanism branch is located at third conveyer upper right, and the left end of material guide mechanism is close to second conveyor right end Ground setting, right end are arranged close to third conveyors carried section;Material guide mechanism includes being arranged in third conveyer front and rear sides Two bracket A and multiple rollers for being assemblied between two bracket A, multiple rollers successively obliquely arranged from upper left to bottom right Cloth, roller are rotatablely connected by two short axles of its rear and front end respectively at two bracket A;
The baffle promotes the left side that rack A is arranged in delivery device comprising machine rack B, is arranged in longitudinal sliding Loading plate in frame B is vertically fixedly connected on the elevating mechanism C of lower end on the right side of rack B, is horizontally fixedly connected on rack B The right end of the telescoping mechanism A and telescoping mechanism B of upper left-hand, loading plate are arranged close to third conveyer left end, elevating mechanism C Telescopic end be fixedly connected with the lower end of loading plate, telescoping mechanism A is correspondingly arranged with the carrying section of the first conveyer;It is flexible The top of telescoping mechanism A, and the height with one mold in carrying section interval of the first conveyer is arranged in mechanism B;Telescoping mechanism A It is fixedly connected with rack B with the fixing end of telescoping mechanism B, telescopic end has been respectively fixedly connected with and has pushed away towards being arranged rightly Block A and pushing block B;
The blender is located at the upper left of mold circulation conveying mechanism by bracket B branch, and its discharge port corresponds to position It is arranged in the mold in mold circulation conveying mechanism vertical section;
The partition panel is slab construction, and size is adapted with the size of notch, and by being plugged in notch and mould Tool matches;
The fixed branch of the separating table is located at a right side for material guide mechanism right end, and between the right end of material guide mechanism there are for every The gap that disconnected plate leaks down.
In the technical scheme, it can not only facilitate by using mold circulation conveying mechanism and by die automation follow Ring supply, and the automatic demoulding being able to achieve in brickmaking production process.On blender is arranged on the left of mold circulation conveying mechanism Side can facilitate the casting that cement slurry is carried out to the mold entered under stacked state.First conveyer and second conveyor are mutually only On the spot it is arranged, the mold on the first conveyer, second conveyor can be independently controlled respectively, to be respectively cooperating with pressure brick The operation of mechanism and clip mechanism.The mutual cooperation of vertical section on the right side of material guide mechanism and mold circulation conveying mechanism can facilitate into Row demoulding, meanwhile, material guide mechanism can facilitate by after demoulding cement lumps and partition panel to close to third conveyor direction be sent, To facilitate the attending personnel being located at separating table to carry out the separation of cement lumps.Gap between material guide mechanism and separating table can be just In freely falling on third conveyer for partition panel.The cooperation of third conveyer and loading plate, can be defeated convenient for that will reach third The partition panel on machine is sent to be fed sequentially on loading plate.The setting of elevating mechanism C, which can facilitate, is pushed to the first conveying for loading plate Machine carries near the upper surface of section.Telescoping mechanism A and telescoping mechanism B can be convenient for for partition panel being pushed under stacked state most respectively The bottom and top of one mold of downside.The production system can effectively reduce the wastage of raw material in filling process, can be automatic Change ground and carry out stripping operation, and artificial labor intensity can be effectively reduced, and production efficiency can be improved.
Further, in order to guarantee the reliability of brick pressing mechanism operation process, in the first conveyer under the middle part of carrying section Side is provided with supporter A, and supporter A is correspondingly arranged at the underface of brick pressing mechanism.
As a preference, elevating mechanism A and elevating mechanism B, elevating mechanism C, telescoping mechanism A and telescoping mechanism B are Linear motor-driven push rod.
As another preferred embodiment, elevating mechanism A and elevating mechanism B, elevating mechanism C, telescoping mechanism A and telescoping mechanism B are equal For hydraulic cylinder.
Detailed description of the invention
Fig. 1 is structural schematic diagram of the invention;
Fig. 2 is the structural schematic diagram that mold is matched with bearing in the present invention;
Fig. 3 is the structural schematic diagram of brick pressing mechanism in the present invention;
Fig. 4 is the structural schematic diagram of clip mechanism in the present invention;
Fig. 5 is the structural schematic diagram of mold in the present invention.
In figure: 1, rack A, 2, blender, 3, mold circulation conveying mechanism, 4, brick pressing mechanism, 5, clip mechanism, 6, guide Mechanism, 7, baffle promotion delivery device, the 8, first conveyer, 9, second conveyor, 10, third conveyer, 11, mold circulation rail Road, 12, mold, 13, locator receiver groove, 14, locating piece, 15, bearing, 16, connecting rod, 17, pressing plate, 18, vertical plate A, 19, lifting Mechanism A, 20, connection otic placode B, 21, transverse slat, 22, cutter, 23, vertical plate B, 24, elevating mechanism B, 25, connection otic placode B, 26, bracket A, 27, roller, 28, bracket B, 29, rack B, 30, loading plate, 31, elevating mechanism C, 32, telescoping mechanism A, 33, pushing block A, 34, Partition panel, 35, supporter A, 36, notch, 37, telescoping mechanism B, 38, pushing block B, 39, separating table.
Specific embodiment
The invention will be further described below.
As shown in Figures 1 to 5, a kind of non-burning brick brickmaking production system, including rack A1, blender 2, brick pressing mechanism 4, cut Brick mechanism 5, material guide mechanism 6, baffle promote delivery device 7, multiple partition panels and separating table 39;
The top of rack A1 is provided with the mold circulation conveying mechanism 3 of left and right directions extension, middle part left side, the right side of rack A1 Side is respectively arranged with the first conveyer 8 of left and right directions extension, second conveyor 9, the right end of the first conveyer 8 and the second conveying The left end of machine 9 is neighboringly arranged, and the carrying section flush of the first conveyer 8 and second conveyor 9 be arranged;Under rack A1 Portion is provided with third conveyer 10, and third conveyer 10 is extended to the right side of 9 right end of second conveyor by the left end of the first conveyer 8 Side;
The top of the first conveyer 8, second conveyor 9 is arranged in mold circulation conveying mechanism 3;Mold circulation conveying Mechanism 3 includes two mold cyclic tracks 11 of the annular that front and back is oppositely arranged and is arranged between two upper mold cyclic tracks 11 Multiple molds 12;Two mold cyclic tracks 11 are by being located at two vertical sections of two vertical sections and connection of left and right ends or more Two horizontal segments composition between end, wherein the junction of vertical section and horizontal segment is arcuate structure;Two mold cyclic tracks 11 opposite sides offer a pair of of sliding slot;The guidance tape of annular is provided in a pair of of sliding slot;Guidance tape is by being arranged in mold Driving motor driving outside cyclic track;The left side end plate lower part of each mold 12 opens up jagged 36, each mold 12 Rear and front end face on the outside of in the symmetrical center positions of left and right directions offer locator receiver groove 13, and former and later two are positioned Two locating pieces 14 are each equipped in pockets 13;The symmetrical centre of mold 12, Ke Yibao is arranged in locator receiver groove 13 Demonstrate,prove locating piece 14 mean forced, under 12 light condition of mold, can be kept under the support of locating piece 14 horizontality without It is flipped.It is provided with a pair of bearings 15 corresponding with two two locating pieces 14 in each mold 12 in a pair of of sliding slot, one Bearing 15 is cooperated with the guidance tape CONTACT WITH FRICTION in a pair of of sliding slot respectively by its outer ring, and by being securely fitted in its inner ring The connecting rod 16 at center is fixedly connected with the outer side center of two locating pieces 14 respectively;
The inside that the brick pressing mechanism 4 and clip mechanism 5 are connected to mold circulation conveying mechanism 3 by rack A1 respectively is left Side and right side, and respectively correspond the top at 9 middle part of the top that 8 middle part of the first conveyer is set and second conveyor;Brick machine Before structure 4 includes horizontally disposed pressing plate 17, is vertically connected on the vertical plate A18 of 17 upper surface of pressing plate and is oppositely disposed at pressing plate 17 Two elevating mechanism A19 of two sides afterwards;It is relatively vertical before and after the fixing end of described two elevating mechanism A19 to be fixedly connected on The inside of rack A1;The upper end of the vertical plate A18 is fixedly connected with two connections of setting corresponding with two elevating mechanism A19 Otic placode B20, and the outer end of two connection otic placode B20 is fixedly connected with the telescopic end of two elevating mechanism A19 respectively;Pressing plate 17 Size be adapted with the size of 12 inner cavity of mold;
The clip mechanism 5 include horizontally disposed transverse slat 21, be vertically connected on 21 lower end surface of transverse slat multiple cutters 22, Vertically 21 upper surface of transverse slat vertical plate B23 and be oppositely disposed at two elevating mechanism B24 of 21 front and rear sides of transverse slat;It is described The relatively vertical inside for being fixedly connected on rack A1 before and after the fixing end of two elevating mechanism B24;The vertical plate B23's is upper End is fixedly connected with two connection otic placode B25 of setting corresponding with two elevating mechanism B24, and two connection otic placode B25 Outer end be fixedly connected respectively with the telescopic end of two elevating mechanism B24;22 left and right directions of cutter extends, and its size and mold The size of 12 inner cavities is adapted;
The material guide mechanism 6 is located at 10 upper right of third conveyer, and the left end of material guide mechanism 6 is close to second conveyor 9 right ends it is arranged, right end is arranged with carrying section close to third conveyer 10;Material guide mechanism 6 includes being arranged in third conveyer Two bracket A26 of 10 front and rear sides and the multiple rollers 27 being assemblied between two bracket A26, multiple rollers 27 from upper left to Bottom right is successively obliquely arranged, and roller 27 is rotatablely connected by two short axles of its rear and front end respectively at two bracket A26;
The baffle promotes the left side that rack A1 is arranged in delivery device 7 comprising rack B29, is arranged with longitudinal sliding In rack B29 loading plate 30, be vertically fixedly connected on the elevating mechanism C31 of lower end on the right side of rack B29, horizontally fix It is connected to the telescoping mechanism A32 and telescoping mechanism B37 of rack B29 upper left-hand, the right end of loading plate 30 is close to third conveyer 10 left ends it is arranged, the telescopic end of elevating mechanism C31 is fixedly connected with the lower end of loading plate 30, and telescoping mechanism A32 and first is defeated The carrying section of machine 8 is sent correspondingly to be arranged;Telescoping mechanism B37 is arranged in the top of telescoping mechanism A32, and with the first conveyer 8 One mold 12 in carrying section interval height;The fixing end of telescoping mechanism A32 and telescoping mechanism B37 are fixed with rack B29 Connection, telescopic end have been respectively fixedly connected with pushing block A33 and pushing block B38 towards being arranged rightly;
The blender 2 is located at the upper left of mold circulation conveying mechanism 3, and its discharge port pair by bracket B28 branch 12 ground of the mold setting that should be located in 3 vertical section of mold circulation conveying mechanism;
The partition panel is slab construction, and size is adapted with the size of notch 36, and by being plugged in notch 36 It is matched with mold 12;
The fixed branch of the separating table 39 is located at a right side for 6 right end of material guide mechanism, and between the right end of material guide mechanism 6 there are The gap leaked down for partition panel.
In order to guarantee the reliability of brick pressing mechanism operation process, the setting below the middle part of carrying section in the first conveyer 8 There are supporter A40, supporter A40 to be correspondingly arranged at the underface of brick pressing mechanism 4.As a preference, in order to guarantee brick cutting machine The reliability of structure operation process, supporter B is provided in second conveyor 8 below the middle part of carrying section, and supporter B correspondence is set It sets in the underface of clip mechanism 5;
Elevating mechanism A19 and elevating mechanism B24, elevating mechanism C31, telescoping mechanism A32 and telescoping mechanism B37 are straight line Electric pushrod.
Elevating mechanism A19 and elevating mechanism B24, elevating mechanism C31, telescoping mechanism A32 and telescoping mechanism B37 are hydraulic Cylinder.
As a preference, can also include controller, the controller respectively with the first conveyer 8, second conveyor 9, third conveyer 10, blender 2, driving motor, elevating mechanism A19 and elevating mechanism B24, elevating mechanism C31, telescoping mechanism A32 and telescoping mechanism B37 are attached, in order to realize automation control.
The course of work: being equipped with brickmaking cement slurry inside blender 2, the discharge outlet of blender 2 is provided with automatically controlled discharging Valve.Original operating state drives guidance tape widdershins to rotate by control driving motor, is moved by frictional force band dynamic bearing 15 It is dynamic, and then driven mold 12 is mobile to the vertical section of 3 left end of mold circulation conveying mechanism, the vertical section in left side accumulates 2 to 3 moulds It can control the stopping movement for stopping guidance tape when tool.By multiple partition panels, equably cloth is placed on the carrying section of third conveyer 10 Surface, and control third conveyer 10 and intermittently act, multiple partition panels are successively transported to the left on loading plate 30 and are conveyed, Third conveyer 10 uses step-by-step movement working method, every time a mobile station.
First a partition panel is transported on loading plate 30, elevating mechanism C31 is then controlled and releases loading plate 30 upwards, The stopping when partition panel reaches the height with the first conveyer 8 carrying section surface flush, then controlling telescoping mechanism A32 will push away Block A33 is released to the right, in turn, in the notch 36 of the mold 12 for the lower side that partition panel is pushed under stacked state, with closing The lower end of mold 12, meanwhile, control elevating mechanism C31 drives loading plate 30 to move down, and reaches reset state (at this point, carrying The carrying section surface flush of plate 30 and third conveyer 10).The automatically controlled discharge valve for controlling blender 2 is opened, and is made in blender 2 Cement slurry by a mold 12 of the top layer under stacked state opening inject, reach under the state of filling stop note Material.A partition panel is transported on loading plate 30 again, then control elevating mechanism C31 by loading plate 30 upwards release, when every Stopping when disconnected plate reaches the height with the upper end flush of a mold 12 of the lower side under stacked state, then control is flexible Mechanism B37 releases pushing block B38 to the right, in turn, partition panel is pushed into the notch 36 of a upper mold 12.It will be located at most lower After being inserted into partition panel in the notch 36 of the notch 36 of the mold 12 of side and a upper mold 12, then controls telescoping mechanism A32 and push away Dynamic pushing block A33 is moved to the right, and the mold 12 of lower side is pushed to be moved out stacked state to the right, meanwhile, control first Conveyer 8 starts and a mobile station, and the partition panel 34 that will be disengaged from the mold 12 under stacked state and its bottom inserting is synchronous Ground conveys to the right, and when mold 12 reaches the underface of brick pressing mechanism 4,8 stopping of the first conveyer movement, the first conveyer 8 when conveying to the right, and the guidance tape in mold circulation conveying mechanism 3 is synchronously acted with the first conveyer 8.Then elevator is controlled Structure 19 is moved down with dynamic pressure plate 17, and in the inner cavity of press-in die 12, cement slurry is flattened, control lifting after having pressed Mechanism 19 is moved up with dynamic pressure plate 17 reaches reset state.During brick pressing mechanism 4 carries out pressing action, third is controlled Conveyer 10 is moved to the left a station, a partition panel 34 is transported on the loading plate 30 under reset state, and control liter Loading plate 30 is pushed to the height with the upper end flush of a mold 12 of the lower side under stacked state by descending mechanism C31 again Then stopping when spending controls telescoping mechanism B37 and releases pushing block B38 to the right, in turn, partition panel is pushed into a upper mold 12 Notch 36 in, release upper one that partition panel 34 is pushed into after a mold 12 mold 12 for falling into lower side every time In the notch 36 of mold 12.After 4 one operation process of brick pressing mechanism, the first conveyer 8 of control moves a station again, The partition panel 34 of mold 12 and its bottom inserting that the latter is detached under stacked state is synchronously conveyed to the right, then by pressure brick Mechanism 4 carries out pressing operation, meanwhile, by third conveyer 10 it is mobile under once on partition panel 34 to loading plate 30, and by going up and down Mechanism C31 is pushed in the upper notch 35 of the mold 12 of the lower side under stacked state, then by telescoping mechanism A push-in mold 12 In upper notch 35.When the first conveyer 8, which will flatten post-job mold 12, to be transported on second conveyor 9, control second is defeated Machine 9 is sent to convey a station to the right, when reaching the underface of clip mechanism 5, control 9 stopping of second conveyor structure movement, When second conveyor 9 conveys to the right, the guidance tape in mold circulation conveying mechanism 3 is synchronously acted with second conveyor 9.Together When, control elevating mechanism B24 band motion plate 21 moves down, to be split by cutter 22 to the cement slurry in mold 12 Operation.Mold 12 through over-segmentation operation is being moved to 3 right side of mold circulation conveying mechanism together with the partition panel 34 of its bottom When vertical section, under the action of guidance tape, driven mold 12 is to movement above vertical section, in turn, by mold 12 and its internal water Material-mud and partition panel 40 are detached from.In this way, mold 12 enters the vertical section of mold circulation conveying mechanism 3, and with guiding The vertical section of the rotation of band to the left is mobile.And partition panel 34 drives the cement slurry of upper part well cutting to enter material guiding machine It on structure 6, is conveyed downwards by roller 27, when partition panel 34 reaches the position supporter A40, in supporter A40 and material guide mechanism 6 most Gap between the roller 27 of downside is only capable of that partition panel 34 is allowed to leak down, conveying of the partition panel 34 to leak down in third conveyer 10 Under sequentially enter loading plate 30.There is artificial post at supporter A40, by the cement lumps of the well cutting on 34 top of partition panel It is moved to the top of supporter A40, conveyer belt can be set on the top of supporter A40, will be moved on supporter A40 The outside portion's conveying of cement lumps.Only notch 36 is arranged in the lower part of end plate to mold 12 to the left, thus 34 energy of partition panel of insertion It is easily inserted into, and can be limited by the right side plate of mold 12 from notch 36.Meanwhile under stacked state, it will be located at When the mold 12 of lower side pushes away to the right, the partition panel being inserted on this mold 12 in 12 notch 36 of mold before will not It is taken out of by mold 12.

Claims (4)

1. a kind of non-burning brick brickmaking production system, including rack A (1) and blender (2), characteristic is, further includes brick machine Structure (4), clip mechanism (5), material guide mechanism (6), baffle promote delivery device (7), multiple partition panels and separating table (39);
The top of rack A (1) is provided with the mold circulation conveying mechanism (3) of left and right directions extension, on the left of the middle part of rack A (1), Right side be respectively arranged with left and right directions extension the first conveyer (8), second conveyor (9), the right end of the first conveyer (8) and The left end of second conveyor (9) is neighboringly arranged, and the carrying section flush of the first conveyer (8) and second conveyor (9) Setting;The lower part of rack A (1) is provided with third conveyer (10), and third conveyer (10) is prolonged by the left end of the first conveyer (8) Reach the right side of second conveyor (9) right end;
Mold circulation conveying mechanism (3) is arranged in the top of the first conveyer (8), second conveyor (9);Mold circulation is defeated Mechanism (3) is sent to include two mold cyclic tracks (11) of the annular that front and back is oppositely arranged and be arranged in two upper mold cyclic tracks (11) multiple molds (12) between;Two mold cyclic tracks (11) are by two vertical sections and connection two positioned at left and right ends Two horizontal segments composition between a vertical section upper and lower side, wherein the junction of vertical section and horizontal segment is arcuate structure;Two The opposite side of mold cyclic track (11) offers a pair of of sliding slot;The guidance tape of annular is provided in a pair of of sliding slot;Guiding Band is driven by the driving motor outside mold cyclic track is arranged in;The left side end plate lower part of each mold (12) offers scarce Mouthful (36), it is recessed that the symmetrical center positions on the outside of the rear and front end face of each mold (12) in left and right directions offer locator receiver Slot (13), and two locating pieces (14) are each equipped in former and later two locator receiver grooves (13);Be provided in a pair of of sliding slot with The corresponding a pair of bearings (15) of two two locating pieces (14) in each mold (12), a pair of bearings (15) pass through its outer ring point Not in a pair of of sliding slot guidance tape CONTACT WITH FRICTION cooperate, and the connecting rod by being securely fitted in circle center in it (16) respectively with The outer side center of two locating pieces (14) is fixedly connected;
The brick pressing mechanism (4) and clip mechanism (5) are connected to the interior of mold circulation conveying mechanism (3) by rack A (1) respectively Portion's left and right side;Brick pressing mechanism (4) includes horizontally disposed pressing plate (17), the vertical plate for being vertically connected on pressing plate (17) upper surface A (18) and two elevating mechanism A (19) for being oppositely disposed at pressing plate (17) front and rear sides;Described two elevating mechanism A (19) Fixing end before and after the relatively vertical inside for being fixedly connected on (1) rack A;The upper end of the vertical plate A (18) is fixedly connected There are two connection otic placode B (20) of setting corresponding with two elevating mechanism A (19), and two connection otic placode B (20) is outer End is fixedly connected with the telescopic end of two elevating mechanism A (19) respectively;The size of pressing plate (17) and the size of mold (12) inner cavity It is adapted;
The clip mechanism (5) includes horizontally disposed transverse slat (21), the multiple cutters for being vertically connected on transverse slat (21) lower end surface (22), vertically transverse slat (21) upper surface vertical plate B (23) and be oppositely disposed at two of transverse slat (21) front and rear sides liftings Mechanism B (24);It is relatively vertical before and after the fixing ends of described two elevating mechanism B (24) to be fixedly connected on the interior of rack A (1) Side;The upper end of the vertical plate B (23) is fixedly connected with two connection otic placode B of setting corresponding with two elevating mechanism B (24) (25), and the outer end of two connection otic placode B (25) is fixedly connected with the telescopic end of two elevating mechanism B (24) respectively;Cutter (22) left and right directions extends, and its size is adapted with the size of mold (12) inner cavity;
Material guide mechanism (6) branch is located at third conveyer (10) upper right, and the left end of material guide mechanism (6) is close to the second conveying Machine (9) right end it is arranged, right end is arranged close to third conveyer (10) carrying section;Material guide mechanism (6) includes setting the Two bracket A (26) of three conveyers (10) front and rear sides and the multiple rollers (27) being assemblied between two bracket A (26) are more A roller (27) is successively obliquely arranged from upper left to bottom right, and roller (27) is by two short axles of its rear and front end respectively at two A bracket A (26) rotation connection;
The baffle promotes delivery device (7) setting in the left side of (1) rack A comprising rack B (29), sets with longitudinal sliding Set the loading plate (30) in rack B (29), be vertically fixedly connected on the elevating mechanism C (31) of lower end on the right side of rack B (29), It is horizontally fixedly connected on the telescoping mechanism A (32) and telescoping mechanism B (37) of rack B (29) upper left-hand, loading plate (30) Right end is arranged close to third conveyer (10) left end, and the lower end of the telescopic end and loading plate (30) of elevating mechanism C (31) is fixed Connection, telescoping mechanism A (32) are correspondingly arranged with the carrying section of the first conveyer (8);Telescoping mechanism B (37) setting is flexible The top of mechanism A (32), and the height with one mold (12) in carrying section interval of the first conveyer (8);Telescoping mechanism A (32) It is fixedly connected with rack B (29) with the fixing end of telescoping mechanism B (37), telescopic end is fixed respectively towards being arranged rightly It is connected with pushing block A (33) and pushing block B (38);
The blender (2) is located at the upper left of mold circulation conveying mechanism (3), and its discharge port by bracket B (28) branch The corresponding mold (12) being located in mold circulation conveying mechanism (3) vertical section it is arranged;
The partition panel is slab construction, and size is adapted with the size of notch (36), and by being plugged in notch (36) It is matched with mold (12);
The fixed branch of the separating table (39) is located at the right side of material guide mechanism (6) right end, and stays between the right end of material guide mechanism (6) There is the gap leaked down for partition panel.
2. a kind of non-burning brick brickmaking production system according to claim 1, which is characterized in that in the first conveyer (8) in It carries and is provided with supporter A (40) below the middle part of section, supporter A (40) is correspondingly arranged at the underface of brick pressing mechanism (4).
3. a kind of non-burning brick brickmaking production system according to claim 1 or 2, which is characterized in that elevating mechanism A (19) and Elevating mechanism B (24), elevating mechanism C (31), telescoping mechanism A (32) and telescoping mechanism B (37) are Linear motor-driven push rod.
4. a kind of non-burning brick brickmaking production system according to claim 1 or 2, which is characterized in that elevating mechanism A (19) and Elevating mechanism B (24), elevating mechanism C (31), telescoping mechanism A (32) and telescoping mechanism B (37) are hydraulic cylinder.
CN201910242972.4A 2019-03-28 2019-03-28 A kind of non-burning brick brickmaking production system Withdrawn CN109773954A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201910242972.4A CN109773954A (en) 2019-03-28 2019-03-28 A kind of non-burning brick brickmaking production system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201910242972.4A CN109773954A (en) 2019-03-28 2019-03-28 A kind of non-burning brick brickmaking production system

Publications (1)

Publication Number Publication Date
CN109773954A true CN109773954A (en) 2019-05-21

Family

ID=66491360

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201910242972.4A Withdrawn CN109773954A (en) 2019-03-28 2019-03-28 A kind of non-burning brick brickmaking production system

Country Status (1)

Country Link
CN (1) CN109773954A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112223491A (en) * 2020-10-15 2021-01-15 田仁霞 Brick press for producing baking-free bricks by mineral tailings

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112223491A (en) * 2020-10-15 2021-01-15 田仁霞 Brick press for producing baking-free bricks by mineral tailings

Similar Documents

Publication Publication Date Title
CN103978548B (en) Reinforcing glass fibrous plaster automatic assembly line
CN107053443A (en) Block cutting production line
CN101138866A (en) Compound thermal insulation wall plate and external wall heat-insulation board producing line
CN112077982B (en) Hollow mould slip casting production line
CN102632548A (en) Production method of foam slurry core-filled building block capable of being quickly condensed under steam-curing-free condition
CN105799049B (en) It is incubated panel cutting system
CN109773954A (en) A kind of non-burning brick brickmaking production system
CN104669430B (en) PC wallboard production systems
CN111531700B (en) Section of jurisdiction assembly line convenient to remote concrete transportation
CN210436366U (en) Baking-free brick making production system
CN111136782B (en) Gypsum mould box forming process and forming machine
CN102672813A (en) Staging maintaining method of rapid hardening foam slurry core filling block in automatic production process
CN205000978U (en) Open type overlength tunnel concrete placement device
CN106079061B (en) A kind of building block production line assembly and method
CN205703449U (en) Cage guide full-automatic metalworking pipeline
CN211729655U (en) Material distribution system
CN104139487A (en) Unmanned dustless high-efficiency intelligent assembly line for ceramics glaze decorated vacuum heat insulation plate
CN210999326U (en) Full-automatic floor-strip wallboard production line
CN210100258U (en) Lower rotary device of mold furnace after sintering and cooling of foamed ceramic
CN202784574U (en) Plate lifting-pushing all-in-one machine used for foam slurry core filling building block automatic production line
CN110171056B (en) Processing device for homogeneous fireproof insulation board
CN110883929A (en) Material distribution system
CN115648408B (en) Equipment and process for manufacturing building masonry by utilizing waste lithium slag based on multiple stations
CN103302198A (en) Feeding mechanism for manufacturing handle of ice bucket
CN219620249U (en) Turning device is carried in turning to of concrete piece

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
WW01 Invention patent application withdrawn after publication
WW01 Invention patent application withdrawn after publication

Application publication date: 20190521