CN111673877A - Be used for building special brick automatic preparation facilities - Google Patents

Abstract

In order to solve the technical problems, the invention relates to an automatic preparation device for a special building brick, in particular to an automatic preparation device for a special building brick, which comprises an installation bottom plate, a feeding control compressed finished product push-out device, an extrusion device, a die drawing device and a feeding pipe, wherein the sand feeding control compressed finished product push-out device is used for feeding brick-making materials in a reciprocating manner and then controlling extrusion forming and subsequent demoulding of bricks, the extrusion device is used for extruding the materials in a die, the die drawing device is used for demoulding the compressed bricks, and the feeding pipe is used for feeding the feeding control compressed finished product push-out device through a specific feeding device and has the functions of: the feeding control compressed finished product pushing device is slidably mounted on the die drawing device, the extruding device is fixedly mounted on the mounting base plate, the extruding device is fixedly mounted on the feeding control compressed finished product pushing device, the die drawing device is fixedly mounted on the extruding device, and the feeding pipe is mounted on the formulated feeding device.

Description

Be used for building special brick automatic preparation facilities

Technical Field

The invention relates to an automatic preparation device for building bricks, in particular to an automatic preparation device for special building bricks.

Background

Along with the rise of living conditions of people, living conditions are improved continuously, and then the living conditions are all on the premise of buildings, bricks are other building materials in the buildings, so that the automatic preparation device for the special bricks for the buildings is invented.

Disclosure of Invention

The invention relates to an automatic preparation device for a special building brick, in particular to an automatic preparation device for a special building brick, which has the functions that a compressed finished product push-out device is controlled by sand feeding to feed brick-making materials in a reciprocating manner, then the extrusion forming and the subsequent demoulding of bricks are controlled, the extrusion device controls the motion condition of the compressed finished product push-out device through feeding to control when the materials in a mould are extruded, a mould drawing device controls when the compressed bricks are demoulded according to the motion position of the compressed finished product push-out device controlled by feeding, and a feeding pipe feeds the compressed finished product push-out device controlled by feeding through a specific feeding device.

In order to solve the technical problems, the invention relates to an automatic preparation device for special bricks for buildings, in particular to an automatic preparation device for special bricks for buildings, which comprises an installation bottom plate, a feeding control compression finished product push-out device, an extrusion device, a die drawing device and a feeding pipe, through husky feed control compression finished product ejecting device carry out reciprocal feeding then and control the extrusion of fragment of brick and subsequent drawing of patterns, extrusion device controls when to extrude the material in the mould through the motion condition of feed control compression finished product ejecting device, drawing die device controls when to demould the good fragment of brick of compression according to the position of feed control compression finished product ejecting device motion, the feeder pipe is through functions such as specific feeder to feed control compression finished product ejecting device feed, its characterized in that: the feeding control compressed finished product pushing device is slidably mounted on the die drawing device, the extruding device is fixedly mounted on the mounting base plate, the extruding device is fixedly mounted on the feeding control compressed finished product pushing device, the die drawing device is fixedly mounted on the extruding device, and the feeding pipe is mounted on the formulated feeding device.

As a further optimization of the technical scheme, the feeding control compression finished product push-out device for the automatic preparation device of the special bricks for the building comprises a connecting frame, a fixed square ring, a sliding channel, a mounting rod, a motor, a rotating rod, a sliding seat, a mounting shaft, a matching cylinder, a sliding seat I, a sliding push rod, a rotating material box, a charging chute and a die drawing device resetting push rod, wherein the fixed square ring is fixedly mounted on the connecting frame, the sliding channel is arranged on the fixed square ring, the mounting rod is fixedly mounted on the fixed square ring, the motor is fixedly mounted on the mounting rod, the rotating rod is fixedly mounted on the motor, the sliding seat is slidably mounted on the rotating rod, the mounting shaft is fixedly mounted on the sliding seat, the matching cylinder is rotatably mounted on the mounting shaft, the matching cylinder is slidably mounted inside the sliding channel, the sliding seat is rotatably mounted on the sliding seat, and the sliding seat I is slidably mounted, the sliding pushing rod is fixedly arranged on the rotating material box, the charging chute is arranged on the rotating material box, and the die drawing device resetting pushing rod is fixedly arranged on the rotating material box.

As a further optimization of the technical scheme, the extrusion device of the automatic preparation device for the special bricks for the buildings comprises a connecting frame, a transmission stepped cross-shaped shaft, supporting legs, a top end fixing mounting plate, a cross-hole rotating shaft, a transmission belt, a mounting plate I, a transmission shaft, a receiving belt wheel, a transmission gear, a transmission shaft I, a receiving gear I, an output half gear I, a transmission shaft II, a receiving gear II, an output half gear II, a movable double-sided rack, a movable plate, a connecting rod and an extrusion pushing plate, wherein the connecting frame is fixedly arranged on a rotating material box, the transmission stepped cross-shaped shaft is rotatably arranged on the connecting frame, the supporting legs are fixedly arranged on a mounting bottom plate, the top end fixing mounting plate is fixedly arranged on the supporting legs, the mounting plate is fixedly arranged on the top end fixing mounting plate, the cross-hole rotating shaft is rotatably arranged on the mounting plate, the driving belt wheel is fixedly arranged on the cross-hole rotating shaft, the driving belt is arranged on the driving belt wheel and the receiving belt wheel, the mounting plate I is fixedly arranged on the top end fixing mounting plate, the driving shaft is rotatably arranged on the mounting plate I, the receiving belt wheel is fixedly arranged on the driving shaft, the driving gear is respectively meshed with the receiving gear I and the receiving gear II, the driving shaft I is rotatably arranged on the mounting plate I, the output half gear I is fixedly arranged on the driving shaft I, the driving shaft II is rotatably arranged on the mounting plate I, the receiving gear II is fixedly arranged on the driving shaft II, the output half gear II is fixedly arranged on the driving shaft II, the movable double-sided rack is, the connecting rod is fixedly arranged on the movable plate, and the extrusion pushing plate is fixedly arranged on the connecting rod.

As a further optimization of the technical scheme, the die drawing device for the automatic preparation device of the special bricks for the buildings comprises a sliding plate mounting plate IV, a fixed connecting rod, a drawing die plate, a matching seat, a matching roller, a mounting and fixing seat, an extrusion cavity, an arc spring, a fixed shaft II, a drawing die drag hook, an arc rod, an interactive push plate, a support mounting seat, a fixed plate IV and an extrusion model, wherein the sliding plate mounting plate IV is slidably mounted on the support leg, the fixed connecting rod is fixedly mounted on the sliding plate mounting plate IV, the drawing die plate is fixedly mounted on the fixed connecting rod, the matching seat is fixedly mounted on the sliding plate mounting plate IV, the matching roller is rotatably mounted on the matching seat, the mounting and fixing seat is fixedly mounted on the movable plate, the extrusion cavity is arranged in the mounting and fixing seat, the arc spring is mounted in the, the drawing die drag hook rotates to be installed on the second fixed shaft, the arc-shaped rod is installed and fixed on the drawing die drag hook, the interactive pushing plate is installed and fixed on the arc-shaped rod, the interactive pushing plate is installed and fixed inside the extrusion cavity, the supporting installation seat is installed and fixed on the installation bottom plate, the fourth fixed plate is installed and fixed on the supporting installation seat, the rotating material box is installed and fixed on the fourth fixed plate in a sliding mode, and the extrusion model is installed and fixed on the fourth fixed plate.

As a further optimization of the technical scheme, the feeding control compressed finished product pushing device for the automatic building brick preparation device comprises two connecting frames and two charging chutes, and the number of the resetting push rods of the die drawing device is four.

As a further optimization of the technical scheme, the transmission stepped cross-shaped shaft of the extrusion device for the automatic preparation device of the special bricks for the building is provided with a matched motor, the number of the transmission stepped cross-shaped shaft is two, the number of the support legs is four, the top end fixing mounting plate, the cross hole rotating shaft, the transmission belt wheel, the transmission belt, the mounting plate I, the transmission shaft, the receiving belt wheel, the transmission gear, the transmission shaft I, the receiving gear I, the output half gear I, the transmission shaft II, the receiving gear II, the output half gear II, the movable double-sided rack and the movable plate are two, the number of the connecting rods is eight, and the number of the extrusion pushing plates is two.

As a further optimization of the technical scheme, the number of the four sliding plate mounting plates of the die drawing device for the automatic preparation device of the special bricks for buildings is two, the number of the fixed connecting rods is two, and the number of the die drawing plate, the mounting fixing seat, the extrusion cavity, the arc-shaped spring, the fixed shaft II, the die drawing hook, the arc-shaped rod, the interactive push plate and the extrusion model is two.

The automatic preparation device for the special bricks for the building has the beneficial effects that:

the invention relates to an automatic preparation device for a special building brick, in particular to an automatic preparation device for a special building brick, which realizes the functions of controlling a compressed finished product pushing device to feed brick-making materials in a reciprocating manner through sand feeding, then controlling the extrusion forming and the subsequent demoulding of bricks, controlling the material in a mould to be extruded when the extrusion device controls the motion condition of the compressed finished product pushing device through feeding, controlling the demoulding of the compressed bricks when the mould drawing device controls the motion position of the compressed finished product pushing device according to feeding, and feeding the compressed finished product pushing device through a specific feeding device by a feeding pipe.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

FIG. 4 is a first schematic view of the apparatus for controlling the ejection of compressed products according to the present invention.

FIG. 5 is a second schematic view of the apparatus for controlling the pushing of the compressed product according to the present invention.

FIG. 6 is a third schematic view of the apparatus for controlling the ejection of the compressed product according to the present invention.

Fig. 7 is a fourth schematic view of the feeding control compressed product ejecting apparatus of the present invention.

FIG. 8 is a first schematic view of an extrusion apparatus of the present invention.

FIG. 9 is a second schematic view of an extrusion apparatus of the present invention.

Fig. 10 is a first schematic view of a pattern drawing apparatus according to the present invention.

Fig. 11 is a schematic view of a second drawing device of the present invention.

Fig. 12 is a third schematic view of the die-drawing device of the present invention.

Fig. 13 is a fourth schematic view of the die-drawing device of the present invention.

In the figure: mounting a bottom plate 1; a feeding control compressed finished product push-out device 2; a connecting frame 2-1; fixing a square ring 2-2; 2-3 of a sliding channel; mounting a rod 2-4; 2-5 of a motor; rotating the rods 2-6; 2-7 of a sliding seat; mounting shafts 2-8; 2-9 parts of a matching cylinder; 2-10 of a sliding seat I; sliding the push rod 2-11; rotating the material box 2-12; 2-13 of a charging chute; the mold drawing device resets the pushing rod 2-14; an extrusion device 3; a connecting frame 3-1; a step cross shaft 3-2 is driven; 3-3 of support legs; the top end is fixed with a mounting plate 3-4; mounting plates 3-5; 3-6 parts of a cross hole rotating shaft; 3-7 of a driving belt wheel; 3-8 parts of a transmission belt; mounting plates I are 3-9; 3-10 parts of a transmission shaft; receiving belt wheels 3-11; transmission gears 3-12; 3-13 parts of a first transmission shaft; receiving gears one 3-14; 3-15 parts of a first output half gear; a second transmission shaft 3-16; receiving a second gear 3-17; output half gear two 3-18; moving the double-sided racks 3-19; moving the plate 3-20; connecting rods 3-21; 3-22 of the push plate is extruded; a die drawing device 4; a sliding plate mounting plate IV 4-1; a fixed connecting rod 4-2; 4-3, pulling the template; 4-4 of a matching seat; 4-5 of a matching roller; mounting a fixed seat 4-6; 4-7 of an extrusion cavity; 4-8 parts of arc-shaped spring; 4-9 parts of a second fixed shaft; 4-10 parts of a drawing drag hook; 4-11 of arc-shaped rods; 4-12 of an interactive push plate; 4-13 of a support mounting seat; fixing plates 4-14; 4-15 of an extrusion model; a feed pipe 5.

Detailed Description

The first embodiment is as follows:

in order to solve the technical problems, the invention relates to an automatic preparation device for bricks specially used for buildings, which comprises a mounting base plate 1, a feeding control compressed finished product push-out device 2, an extrusion device 3, a die drawing device 4 and a feeding pipe 5, wherein the compressed finished product push-out device 2 is controlled by sand feeding to feed materials for bricks back and forth, the extrusion device 3 is controlled by sand feeding to extrude the materials for bricks and then to extrude the bricks and then to demold the bricks, the extrusion device 3 is controlled by the feeding control compressed finished product push-out device 2 to extrude the materials in a die, the die drawing device 4 is controlled by the feeding control compressed finished product push-out device 2 to demold the compressed bricks, the feeding pipe 5 has the functions of controlling the feeding of the compressed finished product pushing device 2 and the like through a specific feeding device, and is characterized in that: the feeding control compressed finished product ejecting device 2 is slidably mounted on the die drawing device 4, the extruding device 3 is fixedly mounted on the mounting base plate 1, the extruding device 3 is fixedly mounted on the feeding control compressed finished product ejecting device 2, the die drawing device 4 is fixedly mounted on the extruding device 3, and the feeding pipe 5 is mounted on the formulating feeding device.

The second embodiment is as follows:

referring to FIGS. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 and 13, which will be further described, the feeding control compressed finished product push-out device 2 comprises a connecting frame 2-1, a fixed square ring 2-2, a sliding channel 2-3, a mounting rod 2-4, a motor 2-5, a rotating rod 2-6, a sliding seat 2-7, a mounting shaft 2-8, a matching cylinder 2-9, a sliding seat I2-10, a sliding push rod 2-11, a rotating bin 2-12, a charging slot 2-13, a die-pulling device reset push rod 2-14, a device for specifying brick-making materials and a feeding pipe 5, wherein the feeding pipe 5 continuously supplies brick-making materials to the outside, and then the materials are fed into the charging slot 2-13 of the rotating bin 2-12 through the feeding pipe 5, when the material is filled in the charging chutes 2-13 left and right after the material is left and right in the staying time of the rotary material box 2-12 below the feeding pipe 5, after the material is filled in the charging chutes 2-13, the rotating rods 2-6 are driven by the motors 2-5 to rotate, the sliding seats 2-7 are driven to rotate by the rotating rods 2-6, the matching cylinders 2-9 are arranged on the mounting shafts 2-8 on the sliding seats 2-7 in a rotating way, the mounting shafts 2-8 and the matching cylinders 2-9 are arranged inside the sliding channels 2-3 in a sliding way, so that the sliding seats 2-7 move according to the track of the sliding channels 2-3, then the sliding seats 2-7 drive the sliding seats I2-10 to move, the sliding seats I2-10 drive the sliding push rods 2-11 to move, and the sliding push rods 2-11 drive the rotary material, thereby enabling the rotary bin 2-12 to move in a reciprocating way and stay at two ends for a certain time, the fixed square ring 2-2 is fixedly arranged on the connecting frame 2-1, the sliding channel 2-3 is arranged on the fixed square ring 2-2, the installation rod 2-4 is fixedly arranged on the fixed square ring 2-2, the motor 2-5 is fixedly arranged on the installation rod 2-4, the rotating rod 2-6 is fixedly arranged on the motor 2-5, the sliding seat 2-7 is slidably arranged on the rotating rod 2-6, the installation shaft 2-8 is fixedly arranged on the sliding seat 2-7, the matching cylinder 2-9 is rotatably arranged on the installation shaft 2-8, the matching cylinder 2-9 is slidably arranged in the sliding channel 2-3, and the sliding seat I2-10 is rotatably arranged on the sliding seat 2-7, the sliding seat I2-10 is slidably arranged on a sliding pushing rod 2-11, the sliding pushing rod 2-11 is fixedly arranged on a rotating material box 2-12, the charging chute 2-13 is arranged on the rotating material box 2-12, and the die drawing device resetting pushing rod 2-14 is fixedly arranged on the rotating material box 2-12.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, and the present embodiment further describes the first embodiment, in which the extruding device 3 includes a connecting frame 3-1, a transmission stepped spider 3-2, a support leg 3-3, a top end fixing mounting plate 3-4, a mounting plate 3-5, a spider rotating shaft 3-6, a transmission pulley 3-7, a transmission belt 3-8, a mounting plate one 3-9, a transmission shaft 3-10, a receiving pulley 3-11, a transmission gear 3-12, a transmission shaft one 3-13, a receiving gear one 3-14, an output half gear one 3-15, a transmission shaft two 3-16, a receiving gear two 3-17, and an output half gear two 3-18, Moving the double-sided rack 3-19, the moving plate 3-20, the connecting rod 3-21 and the extrusion pushing plate 3-22, rotating the material box 2-12 to drive the connecting frame 3-1 to move, driving the transmission stepped cross-shaped shaft 3-2 to move by the connecting frame 3-1, so that the transmission stepped cross-shaped shaft 3-2 is inserted into the cross-hole rotating shaft 3-6, a motor matched with the transmission stepped cross-shaped shaft 3-2 drives the cross-hole rotating shaft 3-6 to rotate through the transmission stepped cross-shaped shaft 3-2, the cross-hole rotating shaft 3-6 drives the transmission belt wheel 3-7 to rotate, the transmission belt wheel 3-7 drives the receiving belt wheel 3-11 to rotate through the transmission belt 3-8, and the receiving belt wheel 3-11 drives the transmission gear 3-12 to rotate through the transmission shaft 3-10, the transmission gear 3-12 is repeatedly meshed with the transmission gear 3-12 and the receiving gear two 3-17, so that the transmission shaft one 3-13 and the transmission shaft two 3-16 intermittently rotate and the rotation directions of the transmission shaft one 3-12 and the transmission shaft two 3-16 are opposite, the output half gear one 3-18 and the two shafts rotate all the time, then the output half gear one and the output half gear two 3-18 push the moving double-sided rack 3-19 to reciprocate up and down, when the output half gear one moves up, the moving plate 3-19 drives the moving plate 3-20 to move down, the moving plate 3-20 drives the extrusion pushing plate 3-22 through the connecting rod 3-21 to compress the materials in the die shifting plate 4-3 and the extrusion model 4-15, and meanwhile, the connecting frame 3-1 is installed and fixed on the rotating work bin 2-12, a transmission stepped cross-shaped shaft 3-2 is rotatably arranged on a connecting frame 3-1, a supporting leg 3-3 is fixedly arranged on an installation bottom plate 1, a top end fixing installation plate 3-4 is fixedly arranged on the supporting leg 3-3, an installation plate 3-5 is fixedly arranged on the top end fixing installation plate 3-4, a connecting frame 2-1 is fixedly arranged on the top end fixing installation plate 3-4, a cross-shaped hole rotating shaft 3-6 is rotatably arranged on the installation plate 3-5, a transmission belt wheel 3-7 is fixedly arranged on the cross-shaped hole rotating shaft 3-6, a transmission belt 3-8 is arranged on a transmission belt wheel 3-7 and a receiving belt wheel 3-11, an installation plate I3-9 is fixedly arranged on the top end fixing installation plate 3-4, a transmission shaft 3-10 is rotatably arranged on an installation, receiving belt wheels 3-11 are fixedly arranged on transmission shafts 3-10, transmission gears 3-12 are fixedly arranged on the transmission shafts 3-10, the transmission gears 3-12 are respectively meshed with receiving gear I3-14 and receiving gear II 3-17, the transmission shafts I3-13 are rotatably arranged on mounting plates I3-9, the receiving gear I3-14 are fixedly arranged on the transmission shafts I3-13, output half gear I3-15 is fixedly arranged on the transmission shafts I3-13, transmission shafts II 3-16 are rotatably arranged on the mounting plates I3-9, the receiving gear II 3-17 is fixedly arranged on the transmission shafts II 3-16, output half gear II 3-18 is fixedly arranged on the transmission shafts II 3-16, and moving double-sided racks 3-19 are fixedly arranged on moving plates 3-20, the movable plate 3-20 is slidably mounted on the supporting leg 3-3, the connecting rod 3-21 is fixedly mounted on the movable plate 3-20, and the extrusion pushing plate 3-22 is fixedly mounted on the connecting rod 3-21.

The fourth concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, the present embodiment will be further described, wherein the pattern drawing device 4 includes a sliding plate mounting plate four 4-1, a fixed connecting rod 4-2, a pattern drawing plate 4-3, a matching seat 4-4, a matching roller 4-5, a mounting and fixing seat 4-6, an extrusion chamber 4-7, an arc spring 4-8, a fixed shaft two 4-9, a pattern drawing hook 4-10, an arc rod 4-11, an interactive pushing plate 4-12, a supporting and mounting seat 4-13, a fixed plate four 4-14, and an extrusion pattern 4-15, during the staying period, the material in the charging chute 2-13 falls into the pattern drawing plate 4-3 and the extrusion pattern 4-15, before the process, the material in the charging chute 2-13 at the other side falls into the die-drawing plate 4-3 and the extrusion model 4-15, the movable plate 3-20 drives the mounting fixed seat 4-6 and the die-drawing hook 4-10 at the upper end to move downwards, when the movable plate moves to a certain position, the die-drawing hook 4-10 is hooked on the matching roller 4-5, when the movable plate moves on the line of the movable double-sided rack 3-19, the movable plate 3-20 is driven to move to a certain extent, simultaneously the movable plate 3-20 drives the device which moves downwards together with the movable plate 3-20 to move upwards, the die-drawing hook 4-10 pulls the die-drawing plate 4-3 to move upwards through the matching seat 4-4 and the matching roller 4-5 to push out the extrusion model 4-15, the brick inside, and then when the rotary bin 2-12 moves backwards, the connecting frame 3-1 is driven by the rotary work bin 2-12 to separate the transmission stepped cross-shaped shaft 3-2 from the cross-hole rotating shaft 3-6, so that the extrusion device 3 stops working, when the rotary work bin 2-12 withdraws the ejected bricks and the die drawing device reset push rod 2-14 pushes the die drawing drag hook 4-10 to rotate outwards around the fixed shaft II 4-9, so that the arc rod 4-11 pushes the interactive push plate 4-12 to compress the arc spring 4-8, the die drawing drag hook 4-10 and the matching roller 4-5 are separated, then the sliding plate mounting plate IV 4-1, the fixed connecting rod 4-2, the die drawing plate 4-3, the matching seat 4-4, the matching roller 4-5 and the mounting fixed seat 4-6 are reset under the action of gravity, repeating the above working process on the other side to continuously generate bricks, slidably mounting a sliding plate mounting plate four 4-1 on a supporting leg 3-3, mounting and fixing a fixed connecting rod 4-2 on the sliding plate mounting plate four 4-1, mounting and fixing a die-drawing plate 4-3 on the fixed connecting rod 4-2, mounting and fixing a matching seat 4-4 on the sliding plate mounting plate four 4-1, rotatably mounting a matching roller 4-5 on the matching seat 4-4, mounting and fixing a fixed seat 4-6 on a moving plate 3-20, arranging an extrusion cavity 4-7 in a mounting and fixing seat 4-6, mounting an arc spring 4-8 in the extrusion cavity 4-7, mounting and fixing a fixed shaft two 4-9 in the mounting and fixing seat 4-6, and rotatably mounting a die-drawing hook 4-10 on the fixed shaft two 4-9, the arc-shaped rod 4-11 is fixedly installed on the pattern drawing hook 4-10, the interactive push plate 4-12 is fixedly installed on the arc-shaped rod 4-11, the interactive push plate 4-12 is slidably installed inside the extrusion cavity 4-7, the supporting installation seat 4-13 is fixedly installed on the installation bottom plate 1, the fixed plate four 4-14 is fixedly installed on the supporting installation seat 4-13, the rotating material box 2-12 is slidably installed on the fixed plate four 4-14, and the extrusion model 4-15 is fixedly installed on the fixed plate four 4-14.

The fifth concrete implementation mode:

the second embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13. the second embodiment is further described, in which the feeding-controlled compressed product ejecting apparatus 2 includes two connecting frames 2-1 and two charging chutes 2-13, and the number of the mold drawing apparatus reset pushing rods 2-14 is four.

The sixth specific implementation mode:

the third embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13. the third embodiment is further described, where the driving stepped spider 3-2 of the extruding device 3 is provided with a matching motor, and includes two connecting frames 3-1 and two driving stepped spiders 3-2, four supporting legs 3-3, a top end fixing mounting plate 3-4, a mounting plate 3-5, a cross-hole rotating shaft 3-6, a driving pulley 3-7, a driving belt 3-8, a mounting plate one 3-9, a driving shaft 3-10, a receiving pulley 3-11, a driving gear 3-12, a driving shaft one 3-13, a receiving gear one 3-14, and an output half gear one 3-15, The number of the transmission shafts II 3-16, the number of the receiving gears II 3-17, the number of the output half gears II 3-18, the number of the moving double-sided racks 3-19 and the number of the moving plates 3-20 are two, the number of the connecting rods 3-21 is eight, and the number of the extrusion pushing plates 3-22 is two.

The seventh embodiment:

the fourth embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13. the fourth embodiment is further described, where the number of the sliding plate mounting plate four 4-1 of the die drawing device 4 is two, the number of the fixed connecting rods 4-2 is that of the sliding plate mounting plate four, and the number of the die drawing plate 4-3, the mounting and fixing seat 4-6, the extrusion cavity 4-7, the arc-shaped spring 4-8, the fixed shaft two 4-9, the die drawing and pulling hook 4-10, the arc-shaped rod 4-11, the interactive push plate 4-12, and the extrusion die 4-15 are all two.

The working principle of the invention is as follows:

a working principle of an automatic preparation device for bricks specially used for buildings is that whether the connection condition between the devices meets requirements is checked before the device is used, the device for brick making materials and a feeding pipe 5 are specified, then the feeding pipe 5 continuously supplies the brick making materials to the outside, then the materials are added into charging grooves 2-13 of rotary feed boxes 2-12 through the feeding pipe 5, the charging grooves 2-13 are filled with the materials after the rotary feed boxes 2-12 stay below the feeding pipe 5 for about the time, after the charging grooves 2-13 are filled with the materials, then a motor 2-5 drives a rotary rod 2-6 to rotate, the rotary rod 2-6 drives a sliding seat 2-7 to rotate, a matching cylinder 2-9 is arranged on a mounting shaft 2-8 on the sliding seat 2-7 in a rotating manner, and the mounting shaft 2-8 and the matching cylinder 2-9 are arranged inside the sliding groove 2-3 in a sliding manner, the sliding seat 2-7 moves according to the track of the sliding channel 2-3, then the sliding seat 2-7 drives the sliding seat I2-10 to move, the sliding seat I2-10 drives the sliding push rod 2-11 to move, the sliding push rod 2-11 drives the rotating material box 2-12 to move, so that the rotating material box 2-12 moves in a reciprocating manner and stays at two ends for a certain time, the material in the charging chute 2-13 falls into the die-shifting plate 4-3 and the extrusion model 4-15 in the staying time, the material in the charging chute 2-13 at the other side falls into the die-shifting plate 4-3 and the extrusion model 4-15 before the process, the connecting frame 3-1 is driven by the rotating material box 2-12 to move, the connecting frame 3-1 drives the transmission cross shaft 3-2 to move, the transmission stepped cross-shaped shaft 3-2 is inserted into the cross-hole rotating shaft 3-6, a motor matched with the transmission stepped cross-shaped shaft 3-2 drives the cross-hole rotating shaft 3-6 to rotate through the transmission stepped cross-shaped shaft 3-2, the cross-hole rotating shaft 3-6 drives the transmission belt wheel 3-7 to rotate, the transmission belt wheel 3-7 drives the receiving belt wheel 3-11 to rotate through the transmission belt 3-8, the receiving belt wheel 3-11 drives the transmission gear 3-12 to rotate through the transmission shaft 3-10, the transmission gear 3-12 is repeatedly meshed with the transmission gear 3-12 and the receiving gear two 3-17, so that the transmission shaft one 3-13 and the transmission shaft two 3-16 intermittently rotate and the rotating directions of the transmission shaft one 3-13 and the transmission shaft two 3-16 are opposite, and the output half gear two 3-18 and the two shafts always rotate Then the two racks push the moving double-sided rack 3-19 to move up and down in a reciprocating manner, when the moving double-sided rack 3-19 moves upwards, the moving plate 3-20 is driven to move downwards by the moving plate 3-20 through the connecting rod 3-21 to drive the extrusion pushing plate 3-22 to compress materials in the die drawing plate 4-3 and the extrusion model 4-15, meanwhile, the moving plate 3-20 drives the installation fixing seat 4-6 and the die drawing hook 4-10 at the upper end to move downwards, when the moving plate moves to a certain position, the die drawing hook 4-10 is hooked on the matching roller 4-5, when the moving double-sided rack 3-19 moves upwards, the moving plate 3-20 is driven to move to a certain extent, and meanwhile, the moving plate 3-20 drives the device moving downwards together with the moving plate 3-20 to move upwards, and the die-drawing drag hook 4-10 pulls the die-drawing plate 4-3 to move upwards through the matching seat 4-4 and the matching roller 4-5 to push out the extruded model 4-15, the internal brick is ejected, then when the rotating bin 2-12 moves backwards, the rotating bin 2-12 drives the connecting frame 3-1 to separate the transmission stepped cross-shaped spline shaft 3-2 from the cross-hole rotating shaft 3-6 so as to stop the extrusion device 3, at the moment when the rotating bin 2-12 withdraws the ejected brick and the die-drawing device resets the push rod 2-14 to push the die-drawing drag hook 4-10 to rotate outwards around the fixed shaft two 4-9, so that the arc-shaped rod 4-11 pushes the interactive push plate 4-12 to compress the arc-shaped spring 4-8, and the die-drawing drag hook 4-10 and the matching roller 4-5 to separate and then the sliding plate four 4-1 and the fixed connecting rod 4-1 2. The shifting template 4-3, the matching seat 4-4, the matching roller 4-5 and the mounting fixed seat 4-6 are reset under the action of gravity, and the other side of the brick is enabled to repeat the working process to continuously generate bricks.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (7)

1. The utility model provides an automatic preparation facilities for construct special brick, includes mounting plate (1), feed control compression finished product ejecting device (2), extrusion device (3), drawing die device (4), feeder pipe (5), its characterized in that: the feeding control compressed finished product push-out device (2) is slidably mounted on the die drawing device (4), the extruding device (3) is fixedly mounted on the mounting base plate (1), the feeding control compressed finished product push-out device (2) is fixedly mounted on the extruding device (3), the die drawing device (4) is fixedly mounted on the extruding device (3), and the feeding pipe (5) is mounted on the formulating feeding device.

2. The automatic preparation device for the special bricks for buildings according to claim 1, characterized in that: the feeding control compressed finished product push-out device (2) comprises a connecting frame (2-1), a fixed square ring (2-2), a sliding channel (2-3), a mounting rod (2-4), a motor (2-5), a rotating rod (2-6), a sliding seat (2-7), a mounting shaft (2-8), a matching cylinder (2-9), a sliding seat I (2-10), a sliding push rod (2-11), a rotating material box (2-12), a charging chute (2-13) and a die drawing device resetting push rod (2-14), wherein the fixed square ring (2-2) is fixedly arranged on the connecting frame (2-1), the sliding channel (2-3) is arranged on the fixed square ring (2-2), and the mounting rod (2-4) is fixedly arranged on the fixed square ring (2-2), the motor (2-5) is fixedly arranged on the mounting rod (2-4), the rotating rod (2-6) is fixedly arranged on the motor (2-5), the sliding seat (2-7) is slidably arranged on the rotating rod (2-6), the mounting shaft (2-8) is fixedly arranged on the sliding seat (2-7), the matching cylinder (2-9) is rotatably arranged on the mounting shaft (2-8), the matching cylinder (2-9) is slidably arranged in the sliding channel (2-3), the sliding seat I (2-10) is rotatably arranged on the sliding seat (2-7), the sliding seat I (2-10) is slidably arranged on the sliding push rod (2-11), the sliding push rod (2-11) is fixedly arranged on the rotating material box (2-12), the charging chute (2-13) is arranged on the rotating material box (2-12), the resetting push rod (2-14) of the die drawing device is fixedly arranged on the rotary feed box (2-12).

3. The automatic preparation device for the special bricks for buildings according to claim 1, characterized in that: the extrusion device (3) comprises a connecting frame (3-1), a transmission stepped cross spline shaft (3-2), supporting legs (3-3), a top end fixing mounting plate (3-4), a mounting plate (3-5), a cross hole rotating shaft (3-6), transmission belt wheels (3-7), transmission belts (3-8), a mounting plate I (3-9), a transmission shaft (3-10), a receiving belt wheel (3-11), a transmission gear (3-12), a transmission shaft I (3-13), a receiving gear I (3-14), an output half gear I (3-15), a transmission shaft II (3-16), a receiving gear II (3-17), an output half gear II (3-18), a movable double-sided rack (3-19), a movable plate (3-20), A connecting rod (3-21) and an extrusion pushing plate (3-22), wherein a connecting frame (3-1) is fixedly arranged on a rotary material box (2-12), a transmission stepped cross-shaped shaft (3-2) is rotatably arranged on the connecting frame (3-1), a supporting leg (3-3) is fixedly arranged on an installation bottom plate (1), a top end fixing installation plate (3-4) is fixedly arranged on the supporting leg (3-3), an installation plate (3-5) is fixedly arranged on the top end fixing installation plate (3-4), the connecting frame (2-1) is fixedly arranged on the top end fixing installation plate (3-4), a cross-shaped hole rotating shaft (3-6) is rotatably arranged on the installation plate (3-5), a transmission belt wheel (3-7) is fixedly arranged on the cross-shaped hole rotating shaft (3-6), the transmission belt (3-8) is arranged on the transmission belt wheel (3-7) and the receiving belt wheel (3-11), the mounting plate I (3-9) is fixedly arranged on the top end fixing mounting plate (3-4), the transmission shaft (3-10) is rotatably arranged on the mounting plate I (3-9), the receiving belt wheel (3-11) is fixedly arranged on the transmission shaft (3-10), the receiving belt wheel (3-11) of the transmission gear (3-12) is fixedly arranged on the transmission shaft (3-10), the transmission gear (3-12) is respectively meshed with the receiving gear I (3-14) and the receiving gear II (3-17), the transmission shaft I (3-13) is rotatably arranged on the mounting plate I (3-9), and the receiving gear I (3-14) is fixedly arranged on the transmission shaft I (3-13), the output half-gear I (3-15) is fixedly installed on the transmission shaft I (3-13), the transmission shaft II (3-16) is rotatably installed on the installation plate I (3-9), the receiving gear II (3-17) is fixedly installed on the transmission shaft II (3-16), the output half-gear II (3-18) is fixedly installed on the transmission shaft II (3-16), the moving double-sided rack (3-19) is fixedly installed on the moving plate (3-20), the moving plate (3-20) is slidably installed on the supporting leg (3-3), the connecting rod (3-21) is fixedly installed on the moving plate (3-20), and the extrusion pushing plate (3-22) is fixedly installed on the connecting rod (3-21).

4. The automatic preparation device for the special bricks for buildings according to claim 1, characterized in that: the die drawing device (4) comprises a sliding plate mounting plate IV (4-1), a fixed connecting rod (4-2), a die drawing plate (4-3), a matching seat (4-4), a matching roller (4-5), a mounting fixing seat (4-6), an extrusion cavity (4-7), an arc-shaped spring (4-8), a fixed shaft II (4-9), a die drawing hook (4-10), an arc-shaped rod (4-11), an interactive push plate (4-12), a support mounting seat (4-13), a fixed plate IV (4-14) and an extrusion model (4-15), wherein the sliding plate mounting plate IV (4-1) is slidably mounted on the supporting leg (3-3), the fixed connecting rod (4-2) is fixedly mounted on the sliding plate IV (4-1), the die drawing plate (4-3) is fixedly arranged on the fixed connecting rod (4-2), the matching seat (4-4) is fixedly arranged on the sliding plate mounting plate four (4-1), the matching roller (4-5) is rotatably arranged on the matching seat (4-4), the mounting fixing seat (4-6) is fixedly arranged on the moving plate (3-20), the extrusion cavity (4-7) is arranged in the mounting fixing seat (4-6), the arc spring (4-8) is arranged in the extrusion cavity (4-7), the fixed shaft two (4-9) is fixedly arranged in the mounting fixing seat (4-6), the die drawing hook (4-10) is rotatably arranged on the fixed shaft two (4-9), the arc rod (4-11) is fixedly arranged on the die drawing hook (4-10), the interactive push plates (4-12) are fixedly arranged on the arc-shaped rods (4-11), the interactive push plates (4-12) are slidably arranged inside the extrusion cavities (4-7), the supporting and mounting seats (4-13) are fixedly arranged on the mounting base plate (1), the fixed plate IV (4-14) is fixedly arranged on the supporting and mounting seats (4-13), the rotating material box (2-12) is slidably arranged on the fixed plate IV (4-14), and the extrusion model (4-15) is fixedly arranged on the fixed plate IV (4-14).

5. The automatic preparation device for the special bricks for buildings according to claim 2, characterized in that: the feeding control compressed finished product pushing device (2) comprises two connecting frames (2-1) and two charging chutes (2-13), and the number of the resetting push rods (2-14) of the die drawing device is four.

6. The automatic preparation device for the special bricks for buildings according to claim 3, characterized in that: the transmission stepped cross-shaped shaft (3-2) of the extrusion device (3) is provided with a matched motor, and comprises two connecting frames (3-1) and two transmission stepped cross-shaped shafts (3-2), four supporting legs (3-3), a top end fixing mounting plate (3-4), a mounting plate (3-5), a cross hole rotating shaft (3-6), a transmission belt wheel (3-7), a transmission belt (3-8), a mounting plate I (3-9), a transmission shaft (3-10), a receiving belt wheel (3-11), a transmission gear (3-12), a transmission shaft I (3-13), a receiving gear I (3-14), an output half gear I (3-15), a transmission shaft II (3-16), a receiving gear II (3-17), The number of the output half-gear II (3-18), the number of the moving double-sided racks (3-19) and the number of the moving plates (3-20) are two, the number of the connecting rods (3-21) is eight, and the number of the extrusion pushing plates (3-22) is two.

7. The automatic preparation device for the special bricks for buildings according to claim 4, characterized in that: the number of the sliding plate mounting plates (4-1) of the die drawing device (4) is two, the number of the fixed connecting rods (4-2) is one, and the number of the die drawing plates (4-3), the mounting fixing seats (4-6), the extrusion cavities (4-7), the arc springs (4-8), the fixed shafts (4-9), the die drawing drag hooks (4-10), the arc rods (4-11), the interactive push plates (4-12) and the extrusion models (4-15) is two.

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