CN111112013B

CN111112013B - Automatic brick making system

Info

Publication number: CN111112013B
Application number: CN201911413076.6A
Authority: CN
Inventors: 戴宜衡; 宋建新
Original assignee: Chengdu Zhongda Great Wall Municipal Engineering Co ltd; Chengdu Zhengda Hengye Electromechanical Equipment Co ltd
Current assignee: Chengdu Zhongda Great Wall Municipal Engineering Co ltd; Chengdu Zhengda Hengye Electromechanical Equipment Co ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2021-07-06
Anticipated expiration: 2039-12-31
Also published as: CN111112013A

Abstract

The invention discloses an automatic brick making system which comprises a circulating conveying device and a die, wherein the circulating conveying device comprises two conveying belts and reversing devices arranged at two ends of the two conveying belts; a batching device, a quantitative feeding device, a vibration flattening device, a polishing device, a drying device, a material taking mechanical arm, a cleaning device and a material placing mechanical arm are sequentially arranged along the position of the starting point of the circulating conveying device; the mould is arranged on the circulating conveying device. Has the advantage that the brick making can effectively improve the product quality.

Description

Automatic brick making system

Technical Field

The invention relates to the technical field of production and processing, in particular to an automatic brick making system.

Background

The manufactured bottom brick is placed in a mold in the brick manufacturing process, broken stones need to be bonded to the front face of the bottom brick, the broken stones are bonded manually in the conventional method, the operation is time-consuming and labor-consuming, the efficiency is low, and the quality of the product is difficult to guarantee due to uneven force application.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides an automatic brick making system which has the advantage that brick making can effectively improve the quality of products.

In order to achieve the purpose, the invention adopts the technical scheme that: an automatic brick making system comprises a circulating conveying device and a mould, wherein the circulating conveying device comprises two conveying belts and reversing devices arranged at two ends of the two conveying belts; a batching device, a quantitative feeding device, a vibration flattening device, a polishing device, a drying device, a material taking mechanical arm, a cleaning device and a material placing mechanical arm are sequentially arranged along the position of the starting point of the circulating conveying device; the mould is arranged on the circulating conveying device, and the bottom of the mould is provided with a demoulding hole;

the batching device comprises a mixing mechanism, a broken stone drying mechanism, an automatic glue stirring mechanism and a storage tank, wherein a broken stone outlet of the broken stone drying mechanism is communicated with a broken stone inlet of the mixing mechanism, a glue outlet of the automatic glue stirring mechanism is communicated with a glue inlet of the mixing mechanism, and a discharge hole of the mixing mechanism is arranged corresponding to a feed hole of the storage tank; the mixing mechanism comprises a mixing tank body, a first material pushing plate arranged in the mixing tank body and a rotating motor arranged at the top of the mixing tank body, wherein a rotating shaft of the rotating motor is arranged towards the mixing tank body, a stirring rod is arranged on the rotating shaft of the rotating motor, a first push rod is arranged at the top of the mixing tank body, one end of the first push rod extends into the mixing tank body and is connected with the first material pushing plate, and the outer diameter of the first material pushing plate is matched with the outer diameter of the mixing tank body;

a discharge port of the storage tank is arranged close to the quantitative feeding device, a second material pushing plate and a second push rod connected with the second material pushing plate are arranged in the storage tank, and one end, far away from the quantitative feeding device, of the second push rod extends out of the storage tank;

the quantitative feeding device comprises a first mounting bracket, a first mounting plate mounted on the first mounting bracket and a first pressing mechanism arranged on the first mounting plate, wherein a first pressing plate is arranged at one end of the first pressing mechanism facing the circulating conveying device;

the vibration flattening device comprises a second mounting bracket, a second mounting plate mounted on the second mounting bracket and a second pressing mechanism arranged on the second mounting plate, wherein a second pressing plate is arranged at one end, facing the circulating conveying device, of the second pressing mechanism, and an oscillating motor is arranged on the second pressing plate;

the polishing device comprises a third mounting bracket, a third mounting plate mounted on the third mounting bracket and a third pressing mechanism arranged on the third mounting plate, wherein a third pressing plate is arranged at one end, facing the circulating conveying device, of the third pressing mechanism, a polishing disc is arranged on the side, facing the circulating conveying device, of the third pressing plate, and a polishing disc driving motor is arranged on the side, facing the circulating conveying device, of the third pressing plate.

When the die is conveyed to the station of the discharging manipulator, the discharging manipulator puts the prefabricated bottom bricks into the die, the circular conveying device conveys the bottom bricks to the reversing device at the head for reversing, when the die is conveyed to the station of the quantitative feeding device, the raw materials in the material storage tank drive the second material pushing plate to push the raw materials to the lower part of the quantitative feeding device through the second push rod, the first pressing mechanism on the quantitative feeding device drives the first pressing plate to press the raw materials into the die, and then the circular conveying device conveys the raw materials to the lower part of the vibration flattening device, when the die is positioned below the vibration flattening device, the second pressing plate arranged on the pressing mechanism is driven by the second pressing mechanism to be pressed with the die, the vibration motor arranged on the second pressing plate vibrates to flatten the raw materials, simultaneously the gas in the raw materials can be eliminated, the circular conveying device conveys the die to the lower part of the polishing device after vibrating for a certain time, the third pressing plate is driven by the third pressing mechanism to move downwards, so that the polishing disc arranged on the third pressing plate is attached to the raw material, the polishing disc is driven by a polishing disc driving motor to rotate to polish the upper surface of the raw material, meanwhile, a part of glue adhered to the side wall of the mold can be taken out during polishing, the polished mold is conveyed by a circulating conveying device, the mold is dried by a drying device when conveyed to the drying device, the dried mold is replaced to a conveying belt at the other side by a reversing device and is conveyed by a conveying belt at the other side, when the mold is conveyed to the material taking manipulator, the material taking manipulator takes out the prepared brick, the mold is continuously conveyed to the cleaning device by the circulating conveying device, the cleaning device cleans the mold, the cleaned mold is continuously conveyed to the material placing manipulator, and the material placing manipulator places the prefabricated bottom brick into the mold for lower wheel circulation.

Preferably, correspond the below of quantitative feeding device, vibration flattening device and polishing device all is equipped with the auxiliary supporting device who is used for the mould spacing, auxiliary supporting device includes frame, riser mounting panel, first riser, supplementary atress board, two second risers and two limit baffle, first riser is installed on the lift mounting panel, and the end that stretches out of this first riser with supplementary atress board is connected, two the second riser sets up along circulation conveyor's direction of delivery, and fixes the both ends of supplementary atress board, stretching out of two second risers serve and be connected with two limit baffle respectively.

Throw the material device at the ration, vibration flattening device and polishing device's below all is equipped with the auxiliary stay device who is used for the mould spacing, in order to avoid first pushing down the mechanism, the pressure of second pushing down mechanism and third pushing down the mechanism is too big to cause the influence to circulating conveyor, when the mould is carried to the ration and is thrown the material device below, first riser on the auxiliary stay device drives supplementary atress board and rises to the assigned position, then the second riser that sets up on supplementary atress board drives the limiting plate and rises to the assigned position and carry on spacingly to the mould, avoid appearing the displacement and cause the influence to the product, in the same way carry to vibration flattening device and polishing device below as the auxiliary stay device and play supporting role and limiting role, improve the quality of product.

Preferably, one side of the auxiliary supporting device, which is located on the quantitative feeding device, the vibration flattening device and the polishing device, is provided with a mold pushing device, the mold pushing device comprises a connecting plate, an air cylinder and a push plate, the connecting plate is connected with one side of the auxiliary stress plate, the air cylinder is arranged on the connecting plate, the orientation of a piston rod of the air cylinder is consistent with the conveying direction of the circulating conveying device, and the push plate is connected with the extending end of the piston rod of the air cylinder.

The mould pushing device is arranged on one side of the auxiliary supporting device of the quantitative feeding device, the vibration flattening device and the polishing device, so that excessive raw materials are attached to the first pressing plate, the second pressing plate and the third pressing plate after the first pressing mechanism, the second pressing mechanism and the third pressing mechanism are pressed down, after the first pressing mechanism is pressed down and the first pressing mechanism is lifted to a certain height after force is removed, a piston rod of an air cylinder in the mould pushing device pushes out the mould along the conveying direction of the conveying belt, and the raw materials in the mould are not attached to the excessive pressing plates completely during pushing out due to the fact that the pressing plates are not completely separated from the mould during pushing out, and the processing quality of the brick is further guaranteed.

Preferably, drying device includes second air heater, windward plate and leeward plate, the windward plate is located circulating conveyor's carriage top, the leeward plate is located the conveyer belt below, be equipped with first wind chamber and second wind chamber in windward plate and the leeward plate respectively, be equipped with the suction opening on the lateral wall of windward plate orientation conveyer belt, leeward plate is towards hot-blast import on the lateral wall of conveyer belt, the air outlet department in first wind chamber is connected with return air duct's one end, return air duct's the other end and the air intake connection of air exhauster, the air intake in second wind chamber is connected with supply air duct's one end, supply air duct's the other end with the air outlet of second air heater is connected, the air outlet department of air exhauster is connected with the circulating air pipe, the other end of circulating air pipe is connected in the supply air duct.

Set up drying device and be for the convenient raw materials that will polish and dry, it carries out the reutilization to set up windward board and leeward board for the convenient hot-blast after will using, it is hot-blast through intake stack and leeward board connection to be the second in the stoving, hot-blast air chamber that gets into leeward board, and blow hot-blast to the mould through hot-blast import, dry the raw materials, the air exhauster that sets up simultaneously on the return air pipeline carries out convulsions, hot-blast after will using is taken out, and in connecting the supply air duct through the circulating air pipe.

Preferably, the reversing device comprises a reversing plate, a pushing mechanism and a driving mechanism for driving the pushing mechanism, the pushing mechanism is arranged at two ends of the conveying belt, the reversing plate is arranged on the pushing mechanism, the reversing plate located at the starting end is far away from the quantitative feeding device, and the reversing plate located at the other end of the conveying belt is far away from the cleaning device.

The reversing device is simple in structure, and the mold can be conveniently pushed onto the conveying belt on the other side from the conveying belt on one side.

Preferably, the first push rod, the second push rod, the first pressing mechanism, the second pressing mechanism, the third pressing mechanism, the first lifter and the second lifter are all any one of an electric telescopic rod, an air cylinder, a hydraulic cylinder or a ball screw pair.

The first push rod, the second push rod, the first pressing mechanism, the second pressing mechanism, the third pressing mechanism, the first lifter and the second lifter are all any one of an electric telescopic rod, an air cylinder, a hydraulic cylinder or a ball screw pair because of convenient control.

Preferably, be located be equipped with shedder on the circular conveyor of reclaimer manipulator one side, shedder includes jacking mounting panel, climbing mechanism and jacking board, the jacking mounting panel is located on circular conveyor's the carriage, climbing mechanism's one end with the top of jacking mounting panel is connected, the climbing mechanism other end orientation the conveyer belt sets up, the jacking board sets up climbing mechanism is close to the one end of conveyer belt, correspond on the jacking board drawing of patterns hole on the mould is equipped with the liftout post.

The demolding device is arranged on the circulating conveying device on one side of the material taking manipulator, when the mold is conveyed to the position above the demolding device, the jacking mechanism in the demolding device ascends to drive the material ejection column arranged on the jacking plate to move towards the direction of the demolding hole of the mold, and the manufactured brick is ejected out, so that the material taking manipulator can conveniently perform blanking.

Preferably, the jacking mechanism is any one of an electric telescopic rod, an air cylinder, a hydraulic cylinder or a ball screw pair.

The jacking can be any one of an electric telescopic rod, an air cylinder, a hydraulic cylinder or a ball screw pair, so that the automatic control is facilitated.

Preferably, rubble stoving mechanism includes stoving case, first air heater and many rubble conveyer belts, many the rubble is carried crisscross to be located on the relative both sides wall of stoving case, be equipped with a plurality of bleeder vents on the rubble conveyer belt, the bottom of stoving case is equipped with rubble discharge gate and a plurality of warm braw export, the rubble discharge gate with mixing arrangement's feed inlet intercommunication, it is a plurality of the warm braw export all with the air outlet of first air heater is connected.

The rubble is dried through rubble stoving mechanism and is avoided the moisture of rubble too much, influences the use in later stage, will dry the incasement and set up many rubble conveyer belts, is equipped with a plurality of bleeder vents on the rubble conveyer belt, is for setting up the warm braw to blow up in order to reach the effect of energy can be saved.

Preferably, the mixing mechanism includes the blending tank body, set up cover on the blending tank body, set up at the internal first scraping wings of blending tank and be used for driving the rotatory rotating electrical machines of the blending tank body, the cover is equipped with the puddler on the internal lateral wall of blending tank, the bottom of the blending tank body is equipped with first push rod, the one end of first push rod stretches into the blending tank internal with first scraping wings is connected, the external diameter of first scraping wings the external diameter phase-match of the blending tank body.

In rubble and the glue got into the blending tank body, rotating electrical machines drove a jar body and rotates, fixes the puddler on the cover and mixes rubble and glue, avoids like this at the fracture of stirring process puddler, and the material that the stirring is good is released it can through first push rod.

The invention has the beneficial effects that:

(1) when the die is conveyed to the station of the discharging manipulator, the discharging manipulator puts the prefabricated bottom bricks into the die, the circular conveying device conveys the bottom bricks to the reversing device at the head for reversing, when the die is conveyed to the station of the quantitative feeding device, the raw materials in the material storage tank drive the second material pushing plate to push the raw materials to the lower part of the quantitative feeding device through the second push rod, the first pressing mechanism on the quantitative feeding device drives the first pressing plate to press the raw materials into the die, and then the circular conveying device conveys the raw materials to the lower part of the vibration flattening device, when the die is positioned below the vibration flattening device, the second pressing plate arranged on the pressing mechanism is driven by the second pressing mechanism to be pressed with the die, the vibration motor arranged on the second pressing plate vibrates to flatten the raw materials, simultaneously the gas in the raw materials can be eliminated, the circular conveying device conveys the die to the lower part of the polishing device after vibrating for a certain time, the third pressing plate is driven by the third pressing mechanism to move downwards, so that the polishing disc arranged on the third pressing plate is attached to the raw material, the polishing disc is driven by a polishing disc driving motor to rotate to polish the upper surface of the raw material, meanwhile, a part of glue adhered to the side wall of the mold can be taken out during polishing, the polished mold is conveyed by a circulating conveying device, the mold is dried by a drying device when conveyed to the drying device, the dried mold is replaced to a conveying belt at the other side by a reversing device and is conveyed by a conveying belt at the other side, when the mold is conveyed to the material taking manipulator, the material taking manipulator takes out the prepared brick, the mold is continuously conveyed to the cleaning device by the circulating conveying device, the cleaning device cleans the mold, the cleaned mold is continuously conveyed to the material placing manipulator, and the material placing manipulator places the prefabricated bottom brick into the mold for lower wheel circulation.

(2) Throw the material device at the ration, vibration flattening device and polishing device's below all is equipped with the auxiliary stay device who is used for the mould spacing, in order to avoid first pushing down the mechanism, the pressure of second pushing down mechanism and third pushing down the mechanism is too big to cause the influence to circulating conveyor, when the mould is carried to the ration and is thrown the material device below, first riser on the auxiliary stay device drives supplementary atress board and rises to the assigned position, then the second riser that sets up on supplementary atress board drives the limiting plate and rises to the assigned position and carry on spacingly to the mould, avoid appearing the displacement and cause the influence to the product, in the same way carry to vibration flattening device and polishing device below as the auxiliary stay device and play supporting role and limiting role, improve the quality of product.

(3) The mould pushing device is arranged on one side of the auxiliary supporting device of the quantitative feeding device, the vibration flattening device and the polishing device, so that excessive raw materials are attached to the first pressing plate, the second pressing plate and the third pressing plate after the first pressing mechanism, the second pressing mechanism and the third pressing mechanism are pressed down, after the first pressing mechanism is pressed down and the first pressing mechanism is lifted to a certain height after force is removed, a piston rod of an air cylinder in the mould pushing device pushes out the mould along the conveying direction of the conveying belt, and the raw materials in the mould are not attached to the excessive pressing plates completely during pushing out due to the fact that the pressing plates are not completely separated from the mould during pushing out, and the processing quality of the brick is further guaranteed.

(4) Set up drying device and be for the convenient raw materials that will polish and dry, it carries out the reutilization to set up windward board and leeward board for the convenient hot-blast after will using, it is hot-blast through intake stack and leeward board connection to be the second in the stoving, hot-blast air chamber that gets into leeward board, and blow hot-blast to the mould through hot-blast import, dry the raw materials, the air exhauster that sets up simultaneously on the return air pipeline carries out convulsions, hot-blast after will using is taken out, and in connecting the supply air duct through the circulating air pipe.

(5) The reversing device is simple in structure, and the mold can be conveniently pushed onto the conveying belt on the other side from the conveying belt on one side.

(6) The first push rod, the second push rod, the first pressing mechanism, the second pressing mechanism, the third pressing mechanism, the first lifter and the second lifter are all any one of an electric telescopic rod, an air cylinder, a hydraulic cylinder or a ball screw pair because of convenient control.

(7) The demoulding holes are arranged at the bottom of the mould to facilitate the demoulding of the brick.

(8) The demolding device is arranged on the circulating conveying device on one side of the material taking manipulator, when the mold is conveyed to the position above the demolding device, the jacking mechanism in the demolding device ascends to drive the material ejection column arranged on the jacking plate to move towards the direction of the demolding hole of the mold, and the manufactured brick is ejected out, so that the material taking manipulator can conveniently perform blanking.

(9) The jacking can be any one of an electric telescopic rod, an air cylinder, a hydraulic cylinder or a ball screw pair, so that the automatic control is facilitated.

(10) The rubble is dried through rubble stoving mechanism and is avoided the moisture of rubble too much, influences the use in later stage, will dry the incasement and set up many rubble conveyer belts, is equipped with a plurality of bleeder vents on the rubble conveyer belt, is for setting up the warm braw to blow up in order to reach the effect of energy can be saved.

(11) In rubble and the glue got into the blending tank body, rotating electrical machines drove a jar body and rotates, fixes the puddler on the cover and mixes rubble and glue, avoids like this at the fracture of stirring process puddler, and the material that the stirring is good is released it can through first push rod.

Drawings

FIG. 1 is a schematic overall block diagram of an embodiment of an automated brick making system according to the present invention;

FIG. 2 is a schematic front view of the mixing mechanism of the dosing apparatus of an embodiment of the automated brick making system of the present invention;

FIG. 3 is a schematic top view of the mixing mechanism of the dosing unit of an embodiment of the automated brick making system of the present invention;

FIG. 4 is a schematic perspective view of a dosing device of an embodiment of the automated brick making system of the present invention;

FIG. 5 is a schematic rear view of a dosing apparatus of an embodiment of the automated brick making system of the present invention;

FIG. 6 is a schematic perspective view of a vibratory flattening apparatus of an embodiment of an automated brick making system according to the present invention;

FIG. 7 is a schematic front view of a vibratory flattening apparatus in accordance with an embodiment of the present invention;

FIG. 8 is a schematic diagram of a right side view of a vibratory flattening apparatus in an embodiment of an automated brick making system according to the present invention;

FIG. 9 is a schematic perspective view of a polishing apparatus of an embodiment of the automated brick making system of the present invention;

FIG. 10 is a schematic front view of a polishing apparatus of an embodiment of the automated brick making system of the present invention;

FIG. 11 is a schematic diagram of a right side view of a polishing apparatus of an embodiment of the automated brick making system of the present invention;

FIG. 12 is a schematic view of a stone crusher dryer in accordance with an embodiment of the automatic brick making system of the present invention;

description of reference numerals:

1. a circulating conveying device; 2. a mold; 1-1, conveying belt; 3. a reversing device; 4. a dosing device; 5. a quantitative feeding device; 6. a vibration flattening device; 7. a polishing device; 8. a drying device; 9. a material taking manipulator; 10. a cleaning device; 11. a feeding manipulator; 4-1, a mixing mechanism; 4-2, a broken stone drying mechanism; 4-3, an automatic glue stirring mechanism; 4-4, a storage tank; 4-21, drying box; 4-22, a first air heater; 4-23, a gravel conveying belt; 4-24, a warm air outlet; 4-11 mixing tank body; 4-13, a first material pushing plate; 4-14, a rotating electrical machine; 4-15, a stirring rod; 4-16, a first push rod; 4-41, a second material pushing plate; 4-42, a second push rod; 4-31, glue barrel; 4-32, a fixed displacement pump; 5-1, a first mounting bracket; 5-2, a first mounting plate; 5-3, a first downward pressing mechanism; 5-4, a first pressing plate; 6-1, a second mounting bracket; 6-2, a second mounting plate; 6-3, a second pressing mechanism; 6-4, a second pressing plate; 6-5, oscillating motor; 7-1, a third mounting bracket; 7-2, a third mounting plate; 7-3, a third pressing mechanism; 7-4, a third pressing plate; 7-5, polishing the disc; 7-6, driving a motor by a polishing disc; 12. an auxiliary support device; 12-1, a frame; 12-2, a lifter mounting plate; 12-3, a first lifter; 12-4, an auxiliary stress plate; 12-5, a second lifter; 12-6, a limit baffle; 13. a mold pushing device; 13-1, connecting plates; 13-2, a cylinder; 13-3, pushing plate; 8-1, a second air heater; 8-2, an upper wind plate; 8-3, a downwind plate; 8-4, a first air cavity; 8-5, a second air cavity; 8-6, an air suction opening; 8-7, hot air inlet; 8-8, a return air pipeline; 8-9 parts of an exhaust fan; 8-10 parts of an air supply pipeline; 8-11 parts of a circulating air pipe; 3-1, a reversing plate; 3-2, a pushing mechanism; 3-3, a driving mechanism; 14. a demolding device; 14-1, jacking the mounting plate; 14-2, a jacking mechanism; 14-3, a jacking plate; 14-4, a material ejection column; 15. and (4) a hoisting machine.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1:

as shown in fig. 1-12, an automatic brick making system comprises a circulating conveying device 1 and a mould 2, wherein the circulating conveying device 1 comprises two conveying belts 1-1 and reversing devices 3 arranged at two ends of the two conveying belts 1-1; a batching device 4, a quantitative feeding device 5, a vibration flattening device 6, a polishing device 7, a drying device 8, a material taking manipulator 9, a cleaning device 10 and a material placing manipulator are sequentially arranged along the starting point position of the circulating conveying device 1; the mould 2 is arranged on the circulating conveying device 1, and a demoulding hole is formed in the bottom of the mould 2;

the dispensing device 4 comprises a mixing mechanism 4-1, a broken stone drying mechanism 4-2, an automatic glue stirring mechanism 4-3 and a storage tank 4-4, wherein a broken stone outlet of the broken stone drying mechanism 4-2 is communicated with a broken stone inlet of the mixing mechanism 4-1, the dried broken stones are lifted to a feed inlet of the mixing mechanism 4-1 through a lifter, a glue outlet of the automatic glue stirring mechanism 4-3 is communicated with a glue inlet of the mixing mechanism 4-1, and a discharge outlet of the mixing mechanism 4-1 is arranged corresponding to a feed inlet of the storage tank 4-4; the mixing mechanism 4-1 comprises a mixing tank body 4-11, a first material pushing plate 4-13 arranged in the mixing tank body 4-11 and a rotating motor 4-14 arranged at the top of the mixing tank body 4-11, wherein a rotating shaft of the rotating motor 4-14 is arranged towards the mixing tank body 4-11, a stirring rod 4-15 is arranged on the rotating shaft of the rotating motor 4-14, a first push rod 4-16 is arranged at the top of the mixing tank body 4-11, one end of the first push rod 4-16 extends into the mixing tank body 4-11 to be connected with the first material pushing plate 4-13, and the outer diameter of the first material pushing plate 4-13 is matched with the outer diameter of the mixing tank body 4-11;

the discharge port of the storage tank 4-4 is arranged close to the quantitative feeding device 5, a second material pushing plate 4-41 and a second push rod 4-42 connected with the second material pushing plate 4-41 are arranged in the storage tank 4-4, and one end, far away from the quantitative feeding device 5, of the second push rod 4-42 extends out of the storage tank 4-4;

the quantitative feeding device 5 comprises a first mounting bracket 5-1, a first mounting plate 5-2 mounted on the first mounting bracket 5-1 and a first downward pressing mechanism 5-3 arranged on the first mounting plate 5-2, wherein a first pressing plate 5-4 is arranged at one end of the first downward pressing mechanism 5-3 facing the circulating conveying device 1;

the vibration flattening device 6 comprises a second mounting bracket 6-1, a second mounting plate 6-2 mounted on the second mounting bracket 6-1 and a second pressing mechanism 6-3 arranged on the second mounting plate 6-2, wherein a second pressing plate 6-4 is arranged at one end, facing the circulating conveying device 1, of the second pressing mechanism 6-3, and an oscillating motor 6-5 is arranged on the second pressing plate 6-4;

the polishing device 7 comprises a third mounting bracket 7-1, a third mounting plate 7-2 mounted on the third mounting bracket 7-1 and a third pressing mechanism 7-3 arranged on the third mounting plate 7-2, a third pressing plate 7-4 is arranged at one end of the third pressing mechanism 7-3 facing the circulating conveying device 1, a polishing disc 7-5 is arranged on the side face of the third pressing plate 7-4 facing the circulating conveying device 1, and a polishing disc driving motor 7-6 is arranged on the side face of the third pressing plate 7-4 far away from the circulating conveying device 1.

Broken stones are dried by a broken stone drying mechanism 4-2 and conveyed into a mixing tank body, glue is AB glue and is stored by two glue barrels 4-31 respectively, the glue is conveyed into an automatic glue stirring mechanism 4-3 through a dosing pump 4-32, a stirring mechanism is arranged in the automatic glue stirring mechanism 4-3, a discharge port of the automatic glue stirring mechanism 4-3 is positioned right above the mixing tank body 4-11, when a mold 2 is conveyed to a station of a discharging manipulator, the discharging manipulator puts prefabricated bottom bricks into the mold 2, a circulating conveying device 1 conveys the bottom bricks to a reversing device 3 at the head for reversing, when the mold 2 is conveyed to the station of a quantitative feeding device 5, raw materials in a storage tank 4-4 drive a second material pushing plate 4-41 to push the raw materials to the lower part of the quantitative feeding device 5 through a second push rod 4-42, a first pressing plate 5-4 is driven by a first pressing mechanism 5-3 on a quantitative feeding device 5 to press raw materials into a die 2, the raw materials are conveyed to the position below a vibration flattening device 6 by a circulating conveying device 1, when the die 2 is positioned below the vibration flattening device 6, a second pressing plate 6-4 arranged on the pressing mechanism is driven by the second pressing mechanism 6-3 to be pressed with the die 2, a vibration motor arranged on the second pressing plate 6-4 vibrates to flatten the raw materials and eliminate gas in the raw materials, the circulating conveying device 1 conveys the die 2 to the position below a polishing device 7 after vibrating for a certain time, a third pressing mechanism 7-3 drives a third pressing plate 7-4 to move downwards, so that a polishing disc 7-5 arranged on the third pressing plate 7-4 is attached to the raw materials, and the polishing disc 7-5 is driven by a polishing disc driving motor 7-6 to rotate to feed the upper surface of the raw materials The mould 2 is conveyed to the drying device 8, the mould 2 is dried by the drying device 8, the dried mould is changed to the conveying belt 1-1 on the other side by the reversing device 3 and is conveyed by the conveying belt 1-1 on the other side, when the mould 2 is conveyed to the material taking manipulator 9, the material taking manipulator 9 takes out the prepared bricks, the mould 2 is continuously conveyed to the cleaning device 10 by the circulating conveying device 1, the cleaning device 10 cleans the mould 2, the cleaned mould 2 is continuously conveyed to the material placing manipulator, and the material placing manipulator puts the prefabricated bottom bricks into the mould 2 for discharging circulation.

Example 2:

as shown in fig. 1 to 12, in this embodiment, on the basis of embodiment 1, auxiliary supporting devices 12 for limiting the position of the mold 2 are respectively disposed below the quantitative feeding device 5, the vibratory flattening device 6 and the polishing device 7, where the auxiliary supporting devices 12 include a frame 12-1, an elevator mounting plate 12-2, a first elevator 12-3, an auxiliary force-bearing plate 12-4, two second elevators 12-5 and two limit baffles 12-6, the first elevator 12-3 is mounted on the elevator mounting plate, and an extending end of the first elevator 12-3 is connected to the auxiliary force-bearing plate 12-4, the two second elevators 12-5 are disposed along the conveying direction of the circular conveying device 1 and fixed at two ends of the auxiliary force-bearing plate 12-4, and extending ends of the two second elevators 12-5 are respectively connected to the two limit baffles 12-6.

An auxiliary supporting device 12 for limiting the die 2 is arranged below the quantitative feeding device 5, the vibration flattening device 6 and the polishing device 7, so as to avoid the influence on the circular conveying device 1 caused by the overlarge pressure of the first pressing mechanism 5-3, the second pressing mechanism 6-3 and the third pressing mechanism 7-3, when the die 2 is conveyed below the quantitative feeding device 5, the first lifter 12-3 on the auxiliary supporting device 12 drives the auxiliary stress plate 12-4 to ascend to a specified position, then the second lifter 12-5 arranged on the auxiliary stress plate 12-4 drives the limiting plate to ascend to the specified position to limit the die 2, so as to avoid the influence on the product caused by displacement, and similarly, when the die 2 is conveyed below the vibration flattening device 6 and the polishing device 7, the auxiliary supporting device 12 plays a supporting role and a limiting role, the quality of the product is improved.

Example 3:

as shown in fig. 1 to 12, in this embodiment, on the basis of embodiment 1, a mold pushing device 13 is disposed on one side of an auxiliary supporting device 12 of the quantitative feeding device 5, the vibration flattening device 6, and the polishing device 7, where the mold pushing device 13 includes a connecting plate 13-1, a cylinder 13-2, and a pushing plate 13-3, the connecting plate 13-1 is connected to one side of the auxiliary stressed plate 12-4, the cylinder 13-2 is disposed on the connecting plate 13-1, a piston rod of the cylinder 13-2 faces in a direction consistent with a conveying direction of the circulating conveying device 1, and the pushing plate 13-3 is connected to an extending end of the piston rod of the cylinder 13-2.

A mould pushing device 13 is arranged on one side of an auxiliary supporting device 12 of the quantitative feeding device 5, the vibration flattening device 6 and the polishing device 7, so that excessive raw materials are adhered to a first pressing plate 5-4, a second pressing plate 6-4 and a third pressing plate 7-4 after the first pressing mechanism 5-3, the second pressing mechanism 6-3 and the third pressing mechanism 7-3 are pressed downwards, after the first pressing mechanism 5-3 is pressed downwards and the first pressing mechanism is lifted to a certain height after force is removed, a piston rod of a cylinder 13-2 in the mould pushing device 13 pushes out the mould 2 along the conveying direction of a conveying belt 1-1, and the raw materials in the mould 2 cannot be excessively adhered to the pressing plates during pushing out due to the fact that the pressing plates are not completely separated from the mould 2 during pushing out, and the processing quality of bricks is further guaranteed.

Example 4:

as shown in fig. 1-12, in this embodiment, on the basis of embodiment 1, the drying device 8 includes a second air heater 8-1, an upper air plate 8-2 and a lower air plate 8-3, the upper air plate 8-2 is disposed above a conveying frame of the circulating conveying device 1, the lower air plate 8-3 is disposed below the conveying belt 1-1, the upper air plate 8-2 and the lower air plate 8-3 are respectively provided with a first air cavity 8-4 and a second air cavity 8-5, an air suction opening 8-6 is disposed on a side wall of the upper air plate 8-2 facing the conveying belt 1-1, the lower air plate 8-3 faces a hot air inlet 8-7 on a side wall of the conveying belt 1-1, an air outlet of the first air cavity 8-4 is connected to one end of an air return duct 8-8, the other end of the return air pipeline 8-8 is connected with an air inlet of an exhaust fan 8-9, an air inlet of the second air cavity 8-5 is connected with one end of an air supply pipeline 8-10, the other end of the air supply pipeline 8-10 is connected with an air outlet of the second air heater 8-1, an air outlet of the exhaust fan 8-9 is connected with a circulating air pipe 8-11, and the other end of the circulating air pipe 8-11 is connected with the inside of the air supply pipeline 8-10.

The drying device 8 is arranged to facilitate drying of the polished raw materials, the upper air plate 8-2 and the lower air plate 8-3 are arranged to facilitate secondary utilization of the used hot air, the second hot air in the drying process is connected with the lower air plate 8-3 through an air inlet pipeline, the hot air enters an air cavity of the lower air plate 8-3 and blows the hot air to the mold 2 through a hot air inlet 8-7 to dry the raw materials, an exhaust fan 8-9 arranged on a return air pipeline 8-8 performs air exhaust to exhaust the used hot air, and the used hot air is connected into an air supply pipeline 8-10 through a circulating air pipe 8-11.

Example 5:

as shown in fig. 1 to 12, in this embodiment, on the basis of embodiment 1, the reversing device 3 includes reversing plates 3-1, a pushing mechanism 3-2, and a driving mechanism 3-3 for driving the pushing mechanism 3-2, the pushing mechanism 3-2 is disposed at two ends of two conveying belts 1-1, the reversing plates 3-1 are disposed on the pushing mechanism 3-2, the reversing plate 3-1 located at the starting end is disposed away from the quantitative feeding device 5, and the reversing plate 3-1 located at the other end of the conveying belt 1-1 is disposed away from the cleaning device 10.

The reversing device 3 is simple in structure and is convenient for pushing the die 2 from the conveying belt 1-1 on one side to the conveying belt 1-1 on the other side.

Example 6:

as shown in fig. 1 to 12, in this embodiment, on the basis of embodiment 1, the first push rod 4-16, the second push rod 4-42, the first pressing mechanism 5-3, the second pressing mechanism 6-3, the third pressing mechanism 7-3, the first lifter 12-3, and the second lifter 12-5 are all any one of an electric telescopic rod, an air cylinder 13-2, a hydraulic cylinder, or a ball screw pair.

The first push rod 4-16, the second push rod 4-42, the first pressing mechanism 5-3, the second pressing mechanism 6-3, the third pressing mechanism 7-3, the first lifter 12-3 and the second lifter 12-5 are all any one of an electric telescopic rod, an air cylinder 13-2, a hydraulic cylinder or a ball screw pair because of convenient control.

Example 7:

as shown in fig. 1 to 12, this embodiment is based on embodiment 1,

example 8:

as shown in fig. 1 to 12, in this embodiment, on the basis of embodiment 1, a demolding device 14 is disposed on the circulating conveying device 1 on one side of the material taking manipulator 9, the demolding device 14 includes a jacking mounting plate 14-1, a jacking mechanism 14-2 and a jacking plate 14-3, the jacking mounting plate 14-1 is disposed on a conveying frame of the circulating conveying device 1, one end of the jacking mechanism 14-2 is connected to the top of the jacking mounting plate 14-1, the other end of the jacking mechanism 14-2 is disposed toward the conveying belt 1-1, the jacking plate 14-3 is disposed at one end of the jacking mechanism 14-2 close to the conveying belt 1-1, a jacking column 14-4 is disposed on the jacking plate 14-3 corresponding to a demolding hole on the mold 2, and a demolding device 14 is disposed on the circulating conveying device 1 on one side of the material taking manipulator 9, when the mold 2 is conveyed to the position above the demolding device 14, the jacking mechanism 14-2 in the demolding device 14 ascends to drive the jacking columns 14-4 arranged on the jacking plates 14-3 to move towards the demolding hole direction of the mold 2, so that the manufactured bricks are ejected out, and the material taking manipulator 9 is convenient to carry out blanking.

Example 9:

as shown in fig. 1 to 12, in this embodiment, on the basis of embodiment 1, the jacking mechanism 14-2 is any one of an electric telescopic rod, an air cylinder 13-2, a hydraulic cylinder, or a ball screw pair. The jacking is any one of an electric telescopic rod, a cylinder 13-2, a hydraulic cylinder or a ball screw pair, so that the automatic control is convenient.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims

1. An automatic brick making system is characterized by comprising a circulating conveying device and a die, wherein the circulating conveying device comprises two conveying belts and reversing devices arranged at two ends of the two conveying belts; a batching device, a quantitative feeding device, a vibration flattening device, a polishing device, a drying device, a material taking mechanical arm, a cleaning device and a material placing mechanical arm are sequentially arranged along the position of the starting point of the circulating conveying device; the mould is arranged on the circulating conveying device, and the bottom of the mould is provided with a demoulding hole;

2. The automatic brick making system according to claim 1, wherein an auxiliary supporting device for limiting the mould is arranged below the quantitative feeding device, the vibration flattening device and the polishing device, the auxiliary supporting device comprises a frame, a lifter mounting plate, a first lifter, an auxiliary stress plate, two second lifters and two limiting baffles, the first lifter is mounted on the lifter mounting plate, the extending end of the first lifter is connected with the auxiliary stress plate, the two second lifters are arranged along the conveying direction of the circular conveying device and fixed at two ends of the auxiliary stress plate, and the extending ends of the two second lifters are respectively connected with the two limiting baffles.

3. The automatic brick making system according to claim 2, wherein a mold pushing device is arranged on one side of the auxiliary supporting device of the quantitative feeding device, the vibration flattening device and the polishing device, the mold pushing device comprises a connecting plate, an air cylinder and a push plate, the connecting plate is connected with one side of the auxiliary stress plate, the air cylinder is arranged on the connecting plate, the direction of a piston rod of the air cylinder is consistent with the conveying direction of the circulating conveying device, and the push plate is connected with the extending end of the piston rod of the air cylinder.

4. The automated brick making system of claim 1, wherein said drying means comprises a second air heater, an upper air plate and a lower air plate, the upper air plate is arranged above the conveying frame of the circulating conveying device, the lower air plate is arranged below the conveying belt, a first air cavity and a second air cavity are respectively arranged in the upper air plate and the lower air plate, an air suction opening is arranged on the side wall of the upper air plate facing the conveying belt, a hot air inlet is arranged on the side wall of the lower air plate facing the conveying belt, the air outlet of the first air cavity is connected with one end of an air return pipeline, the other end of the air return pipeline is connected with the air inlet of an exhaust fan, the air inlet of the second air cavity is connected with one end of an air supply pipeline, the other end of the air supply pipeline is connected with the air outlet of the second air heater, and the air outlet of the exhaust fan is connected with a circulating air pipe, and the other end of the circulating air pipe is connected into the air supply pipeline.

5. The automatic brick making system of claim 1, wherein the reversing device comprises reversing plates, a pushing mechanism and a driving mechanism for driving the pushing mechanism, the pushing mechanism is arranged at two ends of two conveying belts, the reversing plates are arranged on the pushing mechanism, the reversing plate at the starting end is arranged far away from the quantitative feeding device, and the reversing plate at the other end of the conveying belt is arranged far away from the cleaning device.

6. The automatic brick making system of claim 1, wherein the first push rod, the second push rod, the first pushing mechanism, the second pushing mechanism, the third pushing mechanism, the first lifter and the second lifter are any one of an electric telescopic rod, an air cylinder, a hydraulic cylinder or a ball screw pair.

7. The automatic brick making system of claim 1, wherein the circular conveyor device on one side of the material taking manipulator is provided with a demoulding device, the demoulding device comprises a jacking mounting plate, a jacking mechanism and a jacking plate, the jacking mounting plate is arranged on a conveying frame of the circular conveyor device, one end of the jacking mechanism is connected with the top of the jacking mounting plate, the other end of the jacking mechanism faces towards the conveying belt, the jacking plate is arranged at a position where the jacking mechanism is close to one end of the conveying belt, and the jacking plate is provided with a jacking column corresponding to a demoulding hole in the mould.

8. The automatic brick making system of claim 7, wherein said jacking mechanism is any one of an electric telescopic rod, an air cylinder, a hydraulic cylinder or a ball screw pair.

9. The automatic brick making system of claim 1, wherein said gravel drying mechanism comprises a drying box, a first hot air blower and a plurality of gravel conveying belts, said gravel conveying belts are alternatively disposed on two opposite side walls of said drying box, said gravel conveying belts are provided with a plurality of air holes, a gravel outlet and a plurality of hot air outlets are disposed at the bottom of said drying box, said gravel outlet is communicated with said feed inlet of said mixing mechanism, and said hot air outlets are connected with an air outlet of said first hot air blower.

10. The automatic brick making system according to claim 1, wherein the mixing mechanism comprises a mixing tank body, a tank cover arranged on the mixing tank body, a first material pushing plate arranged in the mixing tank body and a rotating motor for driving the mixing tank body to rotate, a stirring rod is arranged on the side wall of the tank cover facing the mixing tank body, a first push rod is arranged at the bottom of the mixing tank body, one end of the first push rod extends into the mixing tank body and is connected with the first material pushing plate, and the outer diameter of the first material pushing plate is matched with the outer diameter of the mixing tank body.