CN112476711A - Hexagonal slope protection brick former that can counterpoint in advance - Google Patents

Abstract

The invention relates to the field of prefabricated parts, in particular to hexagonal slope protection brick forming equipment capable of being pre-aligned. The technical problem is as follows: provides a hexagonal slope protection brick forming device capable of being aligned in advance. The technical scheme is as follows: a hexagonal slope protection brick forming device capable of being aligned in advance comprises a fixed underframe, a first supporting plate, a second supporting plate, a control display screen, a third supporting plate, a filling system, a positioning and reinforcing system and the like; the first supporting plate is fixedly connected with the fixed underframe. The invention achieves the effects of pre-paving the concrete into a hollow hexagon, improving the uniformity of the first feeding, pre-grooving the concrete, enabling the placed steel bars to be positioned in the middle of the formed brick, improving the quality of finished products, pushing the concrete overflowing during vibration material homogenizing back into the mould, avoiding waste and simultaneously keeping the cleanliness of the mould.

Description

Hexagonal slope protection brick former that can counterpoint in advance

Technical Field

The invention relates to the field of prefabricated parts, in particular to hexagonal slope protection brick forming equipment capable of being pre-aligned.

Background

Because the hexagonal reinforcing bar of hollow hexagonal slope protection brick need be added when the preparation shaping improves brick body intensity, generally place for the manual work, need put into after the six limits of manual work alignment, work load is big, and the degree of depth of putting into is difficult to accurate control, the intermediate position of hexagonal slope protection brick is easily deviated to the reinforcing bar simultaneously, thereby it is uneven to cause the finished product quality of production to be good, and the concrete in the mould still need be through the floating processing of trembleing, this process can make the concrete spill over the mould, and then lead to the waste of concrete and mould surface to have the concrete.

In combination with the above problems, there is a need for a hexagonal slope protection brick forming apparatus capable of pre-aligning, so as to solve the above problems.

Disclosure of Invention

In order to overcome because the reinforcing bar that hollow hexagonal slope protection brick need add the hexagon when the preparation shaping improves brick body intensity, generally place for the manual work, need put into after the artifical six limits of aiming at, the work load is big, and the degree of depth of putting into is difficult to accurate control, the intermediate position of hexagonal slope protection brick is easily deviated to the reinforcing bar simultaneously, thereby it is uneven to cause the finished product quality of production to be good, and concrete in the mould still need shake the floating treatment through shaking, this process can make the concrete spill over the mould, and then the shortcoming that leads to the waste of concrete and mould surface attachment have the concrete, technical problem: provides a hexagonal slope protection brick forming device capable of being aligned in advance.

The technical scheme is as follows: a hexagonal slope protection brick forming device capable of being pre-aligned comprises a fixed underframe, a first supporting plate, a second supporting plate, a control display screen, a third supporting plate, a filling system, a positioning and reinforcing system, a material transfer system and a pre-positioning system; fixing the underframe; the first supporting plate is fixedly connected with the fixed underframe; the second supporting plate is fixedly connected with the fixed underframe; the second supporting plate is connected with the control display screen; the third supporting plate is fixedly connected with the fixed underframe; the packing system is connected with the fixed underframe; a group of third supporting plates are arranged on both sides of the packing system; the filling system is connected with the pre-positioning system; the two sides of the positioning and rib installing system are provided with a group of second supporting plates; the positioning and reinforcing system is connected with the pre-positioning system; the material transfer system is connected with the fixed underframe; the pre-positioning system is connected with the fixed underframe; a group of first supporting plates are arranged on two sides of the pre-positioning system.

Optionally, the filling system comprises a first shaft rod, a first driving wheel, a second driving wheel, a third driving wheel, a second shaft rod, a first fixing plate, a first bevel gear, a second fixing plate, a first connecting frame, a first electric push rod, a third shaft rod, a second connecting frame, a first connecting plate, a stirring blade, a first hexagonal pressing plate, a blanking channel, a first connecting strip, a second connecting strip, a material receiving table, a second electric push rod, a material carrying plate and a conveying mechanism; the first driving wheel is connected with the pre-positioning system; the outer surface of the first shaft rod is fixedly connected with the first driving wheel and the second driving wheel in sequence; the outer ring surface of the second driving wheel is in transmission connection with the third driving wheel through a belt; the third driving wheel is fixedly connected with the second shaft rod; the second shaft lever is sequentially and rotatably connected with the first fixing plate and the second fixing plate; the second shaft lever is fixedly connected with the first bevel gear; the first bevel gear is meshed with the second bevel gear; the second bevel gear is fixedly connected with the third shaft rod; the second fixing plate is fixedly connected with the first connecting frame; the first connecting frame is provided with two groups of first electric push rods below; the first connecting frame is fixedly connected with the blanking channel; the two first electric push rods are connected with the second connecting frame; the third shaft lever is fixedly connected with the stirring blade; the third shaft lever is rotationally connected with the first connecting plate; the lower part of the second connecting frame is fixedly connected with the first hexagonal pressing plate; the first connecting plate is fixedly connected with the blanking channel; the blanking channel is fixedly connected with the first connecting strip and the second connecting strip in sequence; the blanking channel is fixedly connected with the second electric push rod; a conveying mechanism is arranged below the blanking channel; the material receiving platform is fixedly connected with the first connecting strip and the second connecting strip in sequence; the second electric push rod is connected with the material carrying plate; and the conveying mechanism is connected with the fixed underframe.

Optionally, the positioning and rib-mounting system comprises a fourth shaft rod, a fourth transmission wheel, a first turntable, a fifth transmission wheel, a second connecting plate, a fifth shaft rod, a sixth transmission wheel, a first pinion, a sixth shaft rod, a second pinion, a second turntable, a first push plate, a first round wire spring, a first limiting sliding plate, a first clamping plate, a second push plate, a second round wire spring, a second limiting sliding plate, a second clamping plate and a hexagonal channel; the fourth driving wheel is connected with the pre-positioning system; the outer surface of the fourth shaft rod is fixedly connected with a fourth driving wheel, a first turntable and a fifth driving wheel in sequence; the fourth shaft lever is rotationally connected with the hexagonal channel; the fourth shaft lever is rotationally connected with the second connecting plate; the first rotating disc is in contact with the first push plate; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the outer surface of the fifth shaft rod is fixedly connected with a sixth driving wheel and the first flat gear in sequence; the fifth shaft lever is rotationally connected with the hexagonal channel; the first flat gear is meshed with the second flat gear; the outer surface of the sixth shaft rod is fixedly connected with the second flat gear and the second turntable in sequence; the sixth shaft lever is rotationally connected with the hexagonal channel; the second rotating disc is in mutual contact with the second push plate; the first push plate is connected with the second limiting sliding plate in a sliding manner; the first push plate is fixedly connected with the first clamping plate; one side of the first round wire spring is connected with the first push plate; the other side of the first round wire spring is connected with a first limiting sliding plate; the first limiting sliding plate is fixedly connected with the hexagonal channel; the second push plate is in sliding connection with the second limiting sliding plate; the second push plate is fixedly connected with the second clamping plate; one side of the second round wire spring is connected with the second push plate; the other side of the second round wire spring is connected with a second limiting sliding plate; the second limiting sliding plate is fixedly connected with the hexagonal channel; the hexagonal channel is fixedly connected with the second supporting plate.

Optionally, the material transfer system comprises an electric guide rail, a third fixing plate, an electric sliding seat, a third electric push rod, a bearing plate, a first power motor, a seventh transmission wheel, an eighth transmission wheel, a screw rod, a first clamping plate, a second clamping plate, a first supporting slide rail and a second supporting slide rail; the third fixing plate is fixedly connected with the fixed underframe; the two sides of the electric guide rail are fixedly connected with the third fixing plate; the electric guide rail is in sliding connection with the electric sliding seat; two groups of third electric push rods are arranged above the electric sliding seat; the two third electric push rods are connected with the bearing plate; the bearing plate is in bolted connection with the first power motor through a nut; the bearing plate is fixedly connected with the first support slide rail and the second support slide rail in sequence; the bearing plate is rotationally connected with the screw rod; the output shaft of the first power motor is fixedly connected with the seventh driving wheel; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the eighth driving wheel is fixedly connected with the screw rod; the screw rod is sequentially in transmission connection with the first clamping plate and the second clamping plate; the first clamping plate is connected with the first supporting slide rail in a sliding manner; and the second clamping plate is in sliding connection with the second support sliding rail.

Optionally, the pre-positioning system comprises a power control assembly, a seventh shaft rod, a ninth transmission wheel, a tenth transmission wheel, an eleventh transmission wheel, an eighth shaft rod, a first eccentric wheel, a first object stage, a first spring piece, a first supporting underframe, a ninth shaft rod, a twelfth transmission wheel, a thirteenth transmission wheel, a fourteenth transmission wheel, a tenth shaft rod, a second eccentric wheel, a second object stage, a second spring piece, a second supporting underframe, a fifteenth transmission wheel, a third bevel gear, a fourth bevel gear, a transmission plate, a first spline shaft, a fourth electric push rod, a sixteenth transmission wheel, a linking frame, a seventeenth transmission wheel, an eleventh shaft rod, a third bevel gear, a toothed plate, a third limiting sliding plate, a second hexagonal pressing plate, a third connecting plate, a collecting plate, a fifth electric push rod, a material pressing plate and a material returning frame; the power control assembly is connected with the fixed underframe; the power control assembly is connected with the first driving wheel; the power control assembly is connected with the fourth transmission wheel; the outer surface of the seventh shaft lever is fixedly connected with the ninth driving wheel and the tenth driving wheel in sequence; the seventh shaft lever is rotationally connected with the first support chassis; the ninth driving wheel is connected with the power control assembly; the outer ring surface of the tenth driving wheel is in transmission connection with the eleventh driving wheel through a belt; the eleventh driving wheel is fixedly connected with the eighth shaft lever; the outer surface of the eighth shaft lever is sequentially provided with three groups of first eccentric wheels; the eighth shaft lever is rotationally connected with the first objective table; the four corners below the first objective table are provided with a group of first spring pieces; the four first spring pieces are connected with the first support underframe; the first supporting underframe is fixedly connected with the fixed underframe; the outer surface of the ninth shaft lever is fixedly connected with the twelfth driving wheel and the thirteenth driving wheel in sequence; the twelfth driving wheel is connected with the power control assembly; the outer ring surface of the thirteenth driving wheel is in transmission connection with the fourteenth driving wheel through a belt; the fourteenth driving wheel is fixedly connected with the tenth shaft lever; the outer surface of the tenth shaft lever is sequentially provided with three groups of second eccentric wheels; the tenth shaft lever is rotationally connected with the second objective table; a group of second spring pieces are arranged at four corners below the second object stage; the four second spring pieces are connected with the second supporting underframe; the second supporting underframe is fixedly connected with the fixed underframe; the fifteenth driving wheel is connected with the power control assembly; the fifteenth transmission wheel is fixedly connected with the third bevel gear through a rotating shaft; the third bevel gear is meshed with the fourth bevel gear; the fourth bevel gear is connected with the transmission plate through a shaft sleeve; the fourth bevel gear is in transmission connection with the first spline shaft through a shaft sleeve; the transmission plate is connected with the fourth electric push rod; the first spline shaft is fixedly connected with the sixteenth driving wheel; the first spline shaft is rotationally connected with the connecting frame; the fourth electric push rod is fixedly connected with the connecting frame; the outer ring surface of the sixteenth driving wheel is in transmission connection with the seventeenth driving wheel through a belt; the connecting frame is fixedly connected with the fixed underframe; the seventeenth driving wheel is fixedly connected with the eleventh shaft lever; the eleventh shaft lever is fixedly connected with the third flat gear; the eleventh shaft lever is rotationally connected with the third connecting plate; the third spur gear is meshed with the gear tooth plate; the pinion plate is fixedly connected with the third limiting sliding plate; the third limiting sliding plate is in sliding connection with the third connecting plate; the third limiting sliding plate is fixedly connected with the second hexagonal pressing plate; the third connecting plate is fixedly connected with the collecting plate; two groups of fifth electric push rods are arranged below the assembly plate; the assembly plate is fixedly connected with the first supporting plate; the two groups of fifth electric push rods are connected with the material pressing plate; and the pressure plate is fixedly connected with the feed back frame.

Optionally, the power control assembly comprises a second power motor, a second spline shaft, an eighteenth transmission wheel, a transmission sleeve, a fourth flat gear, a connecting plate, a sixth electric push rod, a twelfth shaft rod, a fifth flat gear, a nineteenth transmission wheel, a thirteenth shaft rod, a sixth flat gear, a twentieth transmission wheel, a fourteenth shaft rod, a twenty-first transmission wheel and a twenty-second transmission wheel; the outer ring surface of the eighteenth driving wheel is in transmission connection with the first driving wheel through a belt; the outer ring surface of the nineteenth driving wheel is in transmission connection with the fourth driving wheel through a belt; the second power motor is connected with the fixed underframe; the outer ring surface of the twenty-second driving wheel is in transmission connection with the ninth driving wheel through a belt; the outer ring surface of the twenty-second driving wheel is in transmission connection with the twelfth driving wheel through a belt; the outer ring surface of the twenty-second driving wheel is in transmission connection with the fifteenth driving wheel through a belt; the second spline shaft is connected with a second power motor; the second spline shaft is in transmission connection with the transmission sleeve; the transmission sleeve is fixedly connected with the fourth flat gear; the transmission sleeve is connected with the connecting plate; the fourth flat gear is positioned on the middle side surface of the fifth flat gear and the sixth flat gear; the connecting plate is connected with the sixth electric push rod; the sixth electric push rod is fixedly connected with the fixed underframe; the twelfth shaft lever is fixedly connected with the fifth flat gear and the nineteenth driving wheel in sequence; the twelfth shaft lever is rotationally connected with the fixed underframe; the thirteenth shaft lever is fixedly connected with the sixth flat gear and the twentieth transmission wheel in sequence; the thirteenth shaft lever is rotationally connected with the fixed underframe; the outer ring surface of the twentieth driving wheel is in transmission connection with the twenty-first driving wheel through a belt; the outer surface of the fourteenth shaft lever is fixedly connected with the twenty-first driving wheel and the twenty-second driving wheel in sequence; the fourteenth shaft lever is rotatably connected with the fixed chassis.

Optionally, the square shape on the material receiving table is a hexagonal prism table, and the square shape is a hexagonal prism.

Optionally, the junction of the fourth shaft and the first rotating disk deviates from the axial center position of the first rotating disk.

The invention has the beneficial effects that: 1. for solving because the hollow hexagonal slope protection brick need add hexagonal reinforcing bar when the preparation shaping and improve brick body intensity, generally place for the manual work, need put into after the manual work aims at six limits, the work load is big, and the degree of depth of putting into is difficult to accurate control, the intermediate position of hexagonal slope protection brick is easily deviated to the reinforcing bar simultaneously, thereby it is uneven to cause the finished product quality of production to be good, and concrete in the mould still need shake the floating treatment through shaking, this process can make the concrete spill over the mould, and then lead to the waste of concrete and the problem that the mould surface adheres to there is the concrete.

2. A filling system, a positioning and reinforcing steel bar loading system, a material transfer system and a pre-positioning system are designed, when in use, a mold of a hollow hexagonal slope protection brick is firstly manually placed into the filling system, concrete is pre-paved into a hollow hexagon through the filling system, then the hollow hexagon is added into the mold, only half of the concrete is added at the time, then the mold is conveyed to the material transfer system, the mold is transferred to the pre-positioning system through the material transfer system, the pre-positioning system is used for grooving the concrete, the position where reinforcing steel bars are placed is pre-positioned, then the material transfer system is used for transferring the mold to the positioning and reinforcing steel bar loading system, the reinforcing steel bars are added into the mold through the positioning and reinforcing steel bar loading system, then the filling system is used for continuously adding the concrete into the mold where the reinforcing steel bars are placed, then the material transfer system is used for transferring the mold into the pre-positioning, and simultaneously, the shaken concrete is pushed back into the mould.

3. Having reached and having spread the concrete in advance into the cavity hexagon, promoted reinforced homogeneity for the first time, carried out the grooving in advance to the concrete, made the reinforcing bar of putting into be located the intermediate position of shaping brick, promoted the finished product quality, in the concrete that overflows when will vibrating the homocline simultaneously pushes back to the mould, avoided extravagant while keeping the clean and tidy effect of mould.

Drawings

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

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

FIG. 3 is a schematic perspective view of the packing system of the present invention;

FIG. 4 is a schematic partial perspective view of the packing system of the present invention;

FIG. 5 is a schematic perspective view of a combination of a first connecting bar, a second connecting bar, a receiving platform, a second electric pushing bar and a loading plate according to the present invention;

FIG. 6 is a schematic perspective view of a positioning and ribbing system according to the present invention;

FIG. 7 is a schematic perspective view of the material transfer system of the present invention;

FIG. 8 is a schematic diagram of a first perspective structure of the pre-positioning system of the present invention;

FIG. 9 is a schematic diagram of a second perspective structure of the pre-positioning system of the present invention;

FIG. 10 is a perspective view of the power control assembly of the present invention;

FIG. 11 is a schematic view of a three-dimensional structure of the feed back rack of the present invention.

Reference numbers in the drawings: 1: fixed chassis, 2: first support plate, 3: second support plate, 4: control display screen, 5: third support plate, 6: packing system, 7: positioning and reinforcing system, 8: material transfer system, 9: pre-positioning system, 601: first shaft, 602: first drive wheel, 603: second transmission wheel, 604: third transmission wheel, 605: second shaft, 606: first fixing plate, 607: first bevel gear, 608: second bevel gear, 609: second fixing plate, 6010: first link frame, 6011: first electric putter, 6012: third shaft, 6013: second connecting frame, 6014: first connection plate, 6015: stirring blade, 6016: first hexagonal platen, 6017: blanking channel, 6018: first connecting bar, 6019: second connecting bar, 6020: receiving platform, 6021: second electric push rod, 6022: material-carrying plate, 6023: transport mechanism, 701: fourth shaft, 702: fourth transmission wheel, 703: first carousel, 704: fifth transmission wheel, 705: second connecting plate, 706: fifth shaft, 707: sixth transmission wheel, 708: first spur gear, 709: sixth shaft, 7010: second spur gear, 7011: second carousel, 7012: first push plate, 7013: first round wire spring, 7014: first spacing slide, 7015: first detent plate, 7016: second pusher plate, 7017: second round wire spring, 7018: second limit slide plate, 7019: second detent plate, 7020: hexagonal channel, 801: electric rail, 802: third fixing plate, 803: electric slide, 804: third electric putter, 805: receiving plate, 806: first power motor, 807: seventh transmission wheel, 808: eighth transmission wheel, 809: screw rod, 8010: first clamping plate, 8011: second clamping plate, 8012: first support slide rail, 8013: second support slide, 901: power control assembly, 902: seventh shaft, 903: ninth drive wheel, 904: tenth drive wheel, 905: eleventh transmission wheel, 906: eighth shaft, 907: first eccentric, 908: first stage, 909: first spring plate, 9010: first support chassis, 9011: ninth shaft, 9012: a twelfth driving wheel, 9013: thirteenth drive wheel, 9014: a fourteenth driving wheel, 9015: tenth shaft, 9016: second eccentric wheel, 9017: second stage, 9018: second spring plate, 9019: second support chassis, 9020: a fifteenth transmission wheel, 9021: third bevel gear, 9022: fourth bevel gear, 9023: drive plate, 9024: first spline shaft, 9025: fourth electric putter, 9026: a sixteenth driving wheel, 9027: engagement frame, 9028: a seventeenth driving wheel, 9029: eleventh shaft, 9030: third pinion, 9031: pinion plate, 9032: third spacing slide, 9033: second hexagonal platen, 9034: third connecting plate, 9035: set plate, 9036: fifth electric putter, 9037: pressure pad, 9038: feed back frame, 90101: second power motor, 90102: second spline shaft, 90103: an eighteenth driving wheel, 90104: drive sleeve, 90105: fourth spur gear, 90106: connector tile, 90107: sixth electric putter, 90108: twelfth shaft, 90109: fifth spur gear, 90110: nineteenth drive wheel, 90111: thirteenth shaft, 90112: sixth flat gear, 90113: twentieth drive wheel, 90114: fourteenth shaft, 90115: twenty-first transmission wheel, 90116: the twenty-second driving wheel.

Detailed Description

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

Example 1

A hexagonal slope protection brick forming device capable of being pre-aligned is shown in figures 1-11 and comprises a fixed bottom frame, a first supporting plate, a second supporting plate, a control display screen, a third supporting plate, a filling system, a positioning rib loading system, a material transfer system and a pre-positioning system; fixing the underframe; the first supporting plate is fixedly connected with the fixed underframe; the second supporting plate is fixedly connected with the fixed underframe; the second supporting plate is connected with the control display screen; the third supporting plate is fixedly connected with the fixed underframe; the packing system is connected with the fixed underframe; a group of third supporting plates are arranged on both sides of the packing system; the filling system is connected with the pre-positioning system; the two sides of the positioning and rib installing system are provided with a group of second supporting plates; the positioning and reinforcing system is connected with the pre-positioning system; the material transfer system is connected with the fixed underframe; the pre-positioning system is connected with the fixed underframe; a group of first supporting plates are arranged on two sides of the pre-positioning system.

The working principle is as follows: when the device is used, the device is horizontally fixed at a position required to be used, a die of a hollow hexagonal slope protection brick, concrete and a reinforcing steel bar for brick making are prepared, an external power supply is connected, the device is integrally allocated through a control display screen, the device starts to work after being debugged, the die of the hollow hexagonal slope protection brick is manually placed into a filling system, the concrete is pre-paved into a hollow hexagon through the filling system, then the hollow hexagonal slope protection brick is added into the die, only half of the concrete is added at the moment, then the die is conveyed to a material transfer system, the die is transferred to a pre-positioning system through the material transfer system, the concrete is dug through the pre-positioning system, the position for placing the reinforcing steel bar is pre-positioned, then the die is transferred to the positioning and reinforcing steel bar loading system through the material transfer system, the reinforcing steel bar is added into the die through the positioning and, then continue to add the concrete to the mould after putting into the reinforcing bar through the filler system, shift the mould to the prepositioning system in through material transfer system after that, vibrate the mould through the prepositioning system, the concrete that the realization will tremble out simultaneously returns and pushes away to the mould in, the device has reached and has spread into the cavity hexagon with the concrete in advance, promote the homogeneity of feeding in advance for the first time, carry out the grooving in advance to the concrete, the reinforcing bar that makes to put into is located the intermediate position of shaped brick, promote the finished product quality, the concrete that overflows when will vibrating the equipartition simultaneously returns and pushes away to the mould in, avoid extravagant effect that keeps the clean and tidy degree of mould simultaneously.

The filling system comprises a first shaft lever, a first driving wheel, a second driving wheel, a third driving wheel, a second shaft lever, a first fixing plate, a first bevel gear, a second fixing plate, a first connecting frame, a first electric push rod, a third shaft lever, a second connecting frame, a first connecting plate, a stirring blade, a first hexagonal pressing plate, a blanking channel, a first connecting strip, a second connecting strip, a material receiving table, a second electric push rod, a material loading plate and a conveying mechanism; the first driving wheel is connected with the pre-positioning system; the outer surface of the first shaft rod is fixedly connected with the first driving wheel and the second driving wheel in sequence; the outer ring surface of the second driving wheel is in transmission connection with the third driving wheel through a belt; the third driving wheel is fixedly connected with the second shaft rod; the second shaft lever is sequentially and rotatably connected with the first fixing plate and the second fixing plate; the second shaft lever is fixedly connected with the first bevel gear; the first bevel gear is meshed with the second bevel gear; the second bevel gear is fixedly connected with the third shaft rod; the second fixing plate is fixedly connected with the first connecting frame; the first connecting frame is provided with two groups of first electric push rods below; the first connecting frame is fixedly connected with the blanking channel; the two first electric push rods are connected with the second connecting frame; the third shaft lever is fixedly connected with the stirring blade; the third shaft lever is rotationally connected with the first connecting plate; the lower part of the second connecting frame is fixedly connected with the first hexagonal pressing plate; the first connecting plate is fixedly connected with the blanking channel; the blanking channel is fixedly connected with the first connecting strip and the second connecting strip in sequence; the blanking channel is fixedly connected with the second electric push rod; a conveying mechanism is arranged below the blanking channel; the material receiving platform is fixedly connected with the first connecting strip and the second connecting strip in sequence; the second electric push rod is connected with the material carrying plate; and the conveying mechanism is connected with the fixed underframe.

Firstly, a hollow hexagonal slope protection brick die is placed on a conveying mechanism, a first driving wheel is driven by a prepositioning system, then the first driving wheel drives a first shaft rod to rotate, then the first shaft rod drives the first driving wheel to rotate, then the first driving wheel drives a second driving wheel to rotate, then the second driving wheel drives a third driving wheel to rotate, further the third driving wheel drives a second shaft rod to rotate, further the second shaft rod drives a first bevel gear to rotate, further the first bevel gear drives a second bevel gear to rotate, further the second bevel gear drives a third shaft rod to rotate, a stirring paddle is driven by the third shaft rod to rotate, sufficient concrete is added into a feeding channel, the concrete is stirred and conveyed downwards by the stirring paddle, so that the concrete falls onto a receiving platform, and the square shape on the receiving platform is a hexagonal frustum, the falling concrete can be divided by six inclined planes above the material receiving platform, six groups of first connecting strips and second connecting strips are arranged on the outer side of the material receiving platform, the material receiving platform is fixed on the blanking channel by the six groups of first connecting strips and second connecting strips, the blanking channel is in a hexagonal prism shape, and six sides are respectively provided with a group of second electric push rods, the six groups of second electric push rods are respectively connected with a group of material carrying plates, the concrete is divided to the six groups of material carrying plates to form a hollow hexagon, so that the pre-paving of the hollow hexagonal slope protection brick is realized, two groups of first electric push rods between the first connecting frame and the second connecting frame are started, the second connecting frame is pushed downwards, so that the first hexagonal pressing plate is pushed downwards, the pre-paved concrete is flattened, the first hexagonal pressing plate and the material receiving platform form a concrete falling switch valve, when the first hexagonal pressing plate moves upwards to form a gap with the material receiving platform, the concrete can fall down, and then starting six groups of second electric push rods, pushing six groups of material carrying plates to move towards the outer side of the blanking channel, so that the pre-paved concrete can fall into the mold, and the conveying mechanism operates through an external motor to drive the mold to move.

The positioning and rib-mounting system comprises a fourth shaft lever, a fourth driving wheel, a first turntable, a fifth driving wheel, a second connecting plate, a fifth shaft lever, a sixth driving wheel, a first flat gear, a sixth shaft lever, a second flat gear, a second turntable, a first push plate, a first round wire spring, a first limiting sliding plate, a first clamping plate, a second push plate, a second round wire spring, a second limiting sliding plate, a second clamping plate and a hexagonal channel; the fourth driving wheel is connected with the pre-positioning system; the outer surface of the fourth shaft rod is fixedly connected with a fourth driving wheel, a first turntable and a fifth driving wheel in sequence; the fourth shaft lever is rotationally connected with the hexagonal channel; the fourth shaft lever is rotationally connected with the second connecting plate; the first rotating disc is in contact with the first push plate; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the outer surface of the fifth shaft rod is fixedly connected with a sixth driving wheel and the first flat gear in sequence; the fifth shaft lever is rotationally connected with the hexagonal channel; the first flat gear is meshed with the second flat gear; the outer surface of the sixth shaft rod is fixedly connected with the second flat gear and the second turntable in sequence; the sixth shaft lever is rotationally connected with the hexagonal channel; the second rotating disc is in mutual contact with the second push plate; the first push plate is connected with the second limiting sliding plate in a sliding manner; the first push plate is fixedly connected with the first clamping plate; one side of the first round wire spring is connected with the first push plate; the other side of the first round wire spring is connected with a first limiting sliding plate; the first limiting sliding plate is fixedly connected with the hexagonal channel; the second push plate is in sliding connection with the second limiting sliding plate; the second push plate is fixedly connected with the second clamping plate; one side of the second round wire spring is connected with the second push plate; the other side of the second round wire spring is connected with a second limiting sliding plate; the second limiting sliding plate is fixedly connected with the hexagonal channel; the hexagonal channel is fixedly connected with the second supporting plate.

Firstly, hexagonal steel bars are placed in a hexagonal channel, the steel bars are intercepted through a first clamping plate and a second clamping plate, a pre-positioning system is used for driving a fourth driving wheel, the fourth driving wheel drives a fourth shaft rod to rotate, a fourth shaft rod drives a first rotary table and a fifth driving wheel to rotate, meanwhile, a fifth driving wheel drives a sixth driving wheel to rotate, the sixth driving wheel drives a fifth shaft rod to rotate, the fifth shaft rod drives a first flat gear to rotate, the first flat gear is meshed with the second flat gear to rotate, the second flat gear drives a sixth shaft rod to rotate, the sixth shaft rod drives a second rotary table to rotate, the joint of the fourth shaft rod and the first rotary table deviates from the central position of the first rotary table, the joint of the sixth shaft rod and the second rotary table deviates from the central position of the second rotary table, and the combination of the fourth shaft rod and the first rotary table and the combination of the sixth shaft rod and the second rotary table are symmetrically arranged, when the fourth shaft lever and the sixth shaft lever synchronously and reversely rotate, the first turntable can push the first push plate, the second turntable can push the second push plate, the first push plate and the second push plate move away from each other at the moment, the first round wire spring and the second round wire spring are both compressed, the first push plate drives the first clamping plate to move, the second push plate drives the second clamping plate to move, the first clamping plate and the second clamping plate also move away from each other at the moment, so that the steel bars in the hexagonal channel can fall into the die, when the first turntable and the second turntable continue to rotate, the first push plate is reset under the action of the restoring elastic force of the first round wire spring, the second push plate is reset under the action of the restoring elastic force of the second round wire spring, the first clamping plate and the second clamping plate are synchronously reset, and a group of second connecting plates are arranged on the outer surfaces of the fourth shaft lever and the sixth shaft lever, two second connecting plates all carry out the rigid coupling with the second backup pad, and this system has realized the automatic unloading of reinforcing bar.

The material transfer system comprises an electric guide rail, a third fixing plate, an electric sliding seat, a third electric push rod, a bearing plate, a first power motor, a seventh driving wheel, an eighth driving wheel, a screw rod, a first clamping plate, a second clamping plate, a first supporting slide rail and a second supporting slide rail; the third fixing plate is fixedly connected with the fixed underframe; the two sides of the electric guide rail are fixedly connected with the third fixing plate; the electric guide rail is in sliding connection with the electric sliding seat; two groups of third electric push rods are arranged above the electric sliding seat; the two third electric push rods are connected with the bearing plate; the bearing plate is in bolted connection with the first power motor through a nut; the bearing plate is fixedly connected with the first support slide rail and the second support slide rail in sequence; the bearing plate is rotationally connected with the screw rod; the output shaft of the first power motor is fixedly connected with the seventh driving wheel; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the eighth driving wheel is fixedly connected with the screw rod; the screw rod is sequentially in transmission connection with the first clamping plate and the second clamping plate; the first clamping plate is connected with the first supporting slide rail in a sliding manner; and the second clamping plate is in sliding connection with the second support sliding rail.

When the die moves to the position below the middle of the first clamping plate and the second clamping plate, two groups of third electric push rods are arranged between the electric sliding seat and the receiving plate, the receiving plate is pulled downwards through the two groups of third electric push rods, the first clamping plate and the second clamping plate move to two sides of the die, the first power motor is started, the seventh driving wheel is rotated, the seventh driving wheel drives the eighth driving wheel to rotate, the eighth driving wheel drives the lead screw to rotate, two groups of threads are symmetrically arranged on the outer surface of the lead screw, the first clamping plate and the second clamping plate are respectively connected with the two groups of threads of the lead screw, the first clamping plate and the second clamping plate move close to each other when the lead screw rotates, the die is clamped through the first clamping plate and the second clamping plate, the electric guide rail is started, the electric sliding seat is controlled to move, and the die moves, and the system realizes quick transfer of the.

The pre-positioning system comprises a power control assembly, a seventh shaft rod, a ninth driving wheel, a tenth driving wheel, an eleventh driving wheel, an eighth shaft rod, a first eccentric wheel, a first object stage, a first spring piece, a first supporting underframe, a ninth shaft rod, a twelfth driving wheel, a thirteenth driving wheel, a fourteenth driving wheel, a tenth shaft rod, a second eccentric wheel, a second object stage, a second spring piece, a second supporting underframe, a fifteenth driving wheel, a third bevel gear, a fourth bevel gear, a driving plate, a first spline shaft, a fourth electric push rod, a sixteenth driving wheel, a linking frame, a seventeenth driving wheel, an eleventh shaft rod, a third bevel gear, a pinion plate, a third limiting sliding plate, a second hexagonal pressing plate, a third connecting plate, a gathering plate, a fifth electric push rod, a material pressing plate and a material returning frame; the power control assembly is connected with the fixed underframe; the power control assembly is connected with the first driving wheel; the power control assembly is connected with the fourth transmission wheel; the outer surface of the seventh shaft lever is fixedly connected with the ninth driving wheel and the tenth driving wheel in sequence; the seventh shaft lever is rotationally connected with the first support chassis; the ninth driving wheel is connected with the power control assembly; the outer ring surface of the tenth driving wheel is in transmission connection with the eleventh driving wheel through a belt; the eleventh driving wheel is fixedly connected with the eighth shaft lever; the outer surface of the eighth shaft lever is sequentially provided with three groups of first eccentric wheels; the eighth shaft lever is rotationally connected with the first objective table; the four corners below the first objective table are provided with a group of first spring pieces; the four first spring pieces are connected with the first support underframe; the first supporting underframe is fixedly connected with the fixed underframe; the outer surface of the ninth shaft lever is fixedly connected with the twelfth driving wheel and the thirteenth driving wheel in sequence; the twelfth driving wheel is connected with the power control assembly; the outer ring surface of the thirteenth driving wheel is in transmission connection with the fourteenth driving wheel through a belt; the fourteenth driving wheel is fixedly connected with the tenth shaft lever; the outer surface of the tenth shaft lever is sequentially provided with three groups of second eccentric wheels; the tenth shaft lever is rotationally connected with the second objective table; a group of second spring pieces are arranged at four corners below the second object stage; the four second spring pieces are connected with the second supporting underframe; the second supporting underframe is fixedly connected with the fixed underframe; the fifteenth driving wheel is connected with the power control assembly; the fifteenth transmission wheel is fixedly connected with the third bevel gear through a rotating shaft; the third bevel gear is meshed with the fourth bevel gear; the fourth bevel gear is connected with the transmission plate through a shaft sleeve; the fourth bevel gear is in transmission connection with the first spline shaft through a shaft sleeve; the transmission plate is connected with the fourth electric push rod; the first spline shaft is fixedly connected with the sixteenth driving wheel; the first spline shaft is rotationally connected with the connecting frame; the fourth electric push rod is fixedly connected with the connecting frame; the outer ring surface of the sixteenth driving wheel is in transmission connection with the seventeenth driving wheel through a belt; the connecting frame is fixedly connected with the fixed underframe; the seventeenth driving wheel is fixedly connected with the eleventh shaft lever; the eleventh shaft lever is fixedly connected with the third flat gear; the eleventh shaft lever is rotationally connected with the third connecting plate; the third spur gear is meshed with the gear tooth plate; the pinion plate is fixedly connected with the third limiting sliding plate; the third limiting sliding plate is in sliding connection with the third connecting plate; the third limiting sliding plate is fixedly connected with the second hexagonal pressing plate; the third connecting plate is fixedly connected with the collecting plate; two groups of fifth electric push rods are arranged below the assembly plate; the assembly plate is fixedly connected with the first supporting plate; the two groups of fifth electric push rods are connected with the material pressing plate; and the pressure plate is fixedly connected with the feed back frame.

When a half of concrete is placed above the first objective table after being placed in the mold, the ninth driving wheel is driven by the power control assembly, the seventh shaft rod is driven by the ninth driving wheel to rotate, the tenth driving wheel is driven by the seventh shaft rod to rotate, the eleventh driving wheel is driven by the tenth driving wheel through a belt, the eighth shaft rod is driven by the eleventh driving wheel to rotate, the eighth shaft rod drives the three sets of first eccentric wheels to simultaneously rotate, the mold above the first objective table is vibrated and homogenized by the vibration force generated when the three sets of first eccentric wheels rotate, the four sets of first spring pieces are in fit shaking, meanwhile, the fifteenth driving wheel is driven by the power control assembly, the fifteenth driving wheel drives the third bevel gear to rotate, the third bevel gear drives the fourth bevel gear to rotate, and the fourth bevel gear drives the first spline shaft to rotate, the sixteenth driving wheel is driven by the first spline shaft to rotate, the seventeenth driving wheel is driven by the sixteenth driving wheel to rotate, the driving plate can be pushed by the fourth electric push rod, the fourth bevel gear and the driving plate slide on the surface of the first spline shaft, the engagement between the third bevel gear and the fourth bevel gear is further controlled, the seventeenth driving wheel is driven to rotate when the third bevel gear and the fourth bevel gear are in an engaged state, the seventeenth driving wheel stops rotating when the third bevel gear and the fourth bevel gear are in a disengaged state, the seventeenth driving wheel drives the eleventh shaft lever to rotate, the eleventh shaft lever drives the third bevel gear to rotate, the third bevel gear driving wheel is driven by the gear plate to slide on one side of the third connecting plate, the other side of the third connecting plate is also provided with a third bevel gear, and the gear plate and the third limiting sliding plate are combined, the eleventh shaft lever drives the third flat gear to rotate, the toothed plate of the third flat gear drive wheel drives the third limiting sliding plate to slide on the other side of the third connecting plate through the toothed plate, the two groups of third limiting sliding plates drive the second hexagonal pressing plate to move downwards, a hexagonal groove is pressed out of half of concrete placed in the mold, the hexagonal reinforcing steel bars are placed in a subsequent alignment mode, after the reinforcing steel bars are placed in the mold and filled with the concrete, the hexagonal groove is placed on the second objective table, the two groups of fifth electric push rods between the collecting plate and the material pressing plate are started, the material pressing plate and the material returning frame are pushed downwards, the material returning frame is positioned on the outer side of the mold and is tightly attached to the outer wall of the mold, the twelfth drive wheel is driven by the power control component, the ninth shaft lever is driven to rotate by the thirteenth drive wheel, and the fourteenth drive wheel is driven to rotate by the thirteenth, and then the fourteenth driving wheel drives the tenth shaft lever to rotate, and then the tenth shaft lever drives three groups of second eccentric wheels to synchronously rotate, the mould on the second objective table is vibrated and homogenized by the vibration force generated by the rotation of the three groups of second eccentric wheels, four groups of second spring leaves below the second objective table are all matched and shaken, the concrete overflowed during the vibration of the mould can flow out to the outer wall of the mould, at the moment, the material pressing plate and the material returning frame are upwards pulled by two groups of fifth electric push rods, so that the overflowed concrete is upwards pushed back into the mould by the material returning frame, meanwhile, the material pressing plate and the material returning frame are downwards pushed by two groups of fifth electric push rods, at the moment, the material pressing plate is pushed to downwards move to be in contact with the upper surface of the concrete in the mould, the concrete is flattened by the material pressing plate, the system realizes the pre-grooving of the concrete, so that the placed reinforcing steel bar is, meanwhile, overflowing concrete during vibration material homogenizing is pushed back into the mold, so that waste is avoided, and the smoothness of the mold is kept.

The power control assembly comprises a second power motor, a second spline shaft, an eighteenth driving wheel, a driving sleeve, a fourth flat gear, a connecting plate, a sixth electric push rod, a twelfth shaft rod, a fifth flat gear, a nineteenth driving wheel, a thirteenth shaft rod, a sixth flat gear, a twentieth driving wheel, a fourteenth shaft rod, a twenty-first driving wheel and a twenty-second driving wheel; the outer ring surface of the eighteenth driving wheel is in transmission connection with the first driving wheel through a belt; the outer ring surface of the nineteenth driving wheel is in transmission connection with the fourth driving wheel through a belt; the second power motor is connected with the fixed underframe; the outer ring surface of the twenty-second driving wheel is in transmission connection with the ninth driving wheel through a belt; the outer ring surface of the twenty-second driving wheel is in transmission connection with the twelfth driving wheel through a belt; the outer ring surface of the twenty-second driving wheel is in transmission connection with the fifteenth driving wheel through a belt; the second spline shaft is connected with a second power motor; the second spline shaft is in transmission connection with the transmission sleeve; the transmission sleeve is fixedly connected with the fourth flat gear; the transmission sleeve is connected with the connecting plate; the fourth flat gear is positioned on the middle side surface of the fifth flat gear and the sixth flat gear; the connecting plate is connected with the sixth electric push rod; the sixth electric push rod is fixedly connected with the fixed underframe; the twelfth shaft lever is fixedly connected with the fifth flat gear and the nineteenth driving wheel in sequence; the twelfth shaft lever is rotationally connected with the fixed underframe; the thirteenth shaft lever is fixedly connected with the sixth flat gear and the twentieth transmission wheel in sequence; the thirteenth shaft lever is rotationally connected with the fixed underframe; the outer ring surface of the twentieth driving wheel is in transmission connection with the twenty-first driving wheel through a belt; the outer surface of the fourteenth shaft lever is fixedly connected with the twenty-first driving wheel and the twenty-second driving wheel in sequence; the fourteenth shaft lever is rotatably connected with the fixed chassis.

Firstly, a second power motor is started to enable a second spline shaft to rotate, the second spline shaft drives an eighteenth transmission wheel to rotate, the eighteenth transmission wheel can transmit a first transmission wheel, a sixth electric push rod is started to push a connecting plate, a transmission sleeve and a fourth flat gear can be enabled to translate on the second spline shaft, the fourth flat gear is controlled to be selectively meshed with a fifth flat gear and the sixth flat gear, when the fourth flat gear is meshed with the fifth flat gear for transmission, a twelfth shaft lever is driven to rotate through the rotation of the fifth flat gear, a nineteenth transmission wheel is driven to rotate by the twelfth shaft lever, a fourth transmission wheel can be driven to rotate by the nineteenth transmission wheel, when the fourth flat gear is meshed with the sixth flat gear for transmission, a thirteenth shaft lever is driven to rotate through the rotation of the sixth flat gear, a twentieth transmission wheel is driven to rotate by the thirteenth shaft lever, and the twentieth transmission wheel drives the twenty-first transmission wheel to rotate, and then the twenty-first drive wheel drives the fourteenth axostylus axostyle and rotates, and then the fourteenth axostylus axostyle drives the twenty-second drive wheel and rotates, and the twenty-second drive wheel is provided with three sets of transmission tracks, can drive ninth drive wheel, twelfth drive wheel and fifteenth drive wheel simultaneously, and this subassembly has realized the power control to each system.

Connect the square form of material bench to be hexagonal prism platform, square form is hexagonal prism down.

The concrete that can make the drop shunts through six inclined planes that connect the material platform top, realizes the pre-paved of hollow hexagonal slope protection brick.

The joint of the fourth shaft lever and the first rotating disc deviates from the axle center position of the first rotating disc.

The first push plate may be capable of being pushed when the first turntable is rotated.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. The utility model provides a hexagonal slope protection brick former that can counterpoint in advance, is including fixed chassis (1), first backup pad (2), second backup pad (3), control display screen (4) and third backup pad (5), its characterized in that: the device also comprises a filling system (6), a positioning and rib-loading system (7), a material transfer system (8) and a pre-positioning system (9);

a fixed chassis (1);

the first supporting plate (2), the first supporting plate (2) is fixedly connected with the fixed underframe (1);

the second supporting plate (3), the second supporting plate (3) is fixedly connected with the fixed underframe (1); the second supporting plate (3) is connected with the control display screen (4);

the third supporting plate (5), the third supporting plate (5) is fixedly connected with the fixed underframe (1);

the packing system (6), the packing system (6) is connected with the fixed underframe (1); a group of third supporting plates (5) are arranged on both sides of the packing system (6); the filling system (6) is connected with the pre-positioning system (9);

the two sides of the positioning and rib installing system (7) are respectively provided with a group of second supporting plates (3); the positioning and rib-mounting system (7) is connected with the pre-positioning system (9);

the material transfer system (8), the material transfer system (8) is connected with the fixed underframe (1);

the pre-positioning system (9), the pre-positioning system (9) is connected with the fixed underframe (1); and a group of first supporting plates (2) are arranged on both sides of the pre-positioning system (9).

2. The hexagonal slope protection brick molding equipment capable of being pre-aligned according to claim 1, wherein: the filling system (6) comprises a first shaft lever (601), a first transmission wheel (602), a second transmission wheel (603), a third transmission wheel (604), a second shaft lever (605), a first fixing plate (606), a first bevel gear (607), a second bevel gear (608), a second fixing plate (609), a first connecting frame (6010), a first electric push rod (6011), a third shaft lever (6012), a second connecting frame (6013), a first connecting plate (6014), a stirring paddle (6015), a first hexagonal pressing plate (6016), a blanking channel (6017), a first connecting strip (6018), a second connecting strip (6019), a material receiving platform (6020), a second electric push rod (6021), a material loading plate (6022) and a transmission mechanism (6023);

the first driving wheel (602), the first driving wheel (602) is connected with the pre-positioning system (9);

the outer surface of the first shaft lever (601) is fixedly connected with the first driving wheel (602) and the second driving wheel (603) in sequence;

the outer ring surface of the second transmission wheel (603) is in transmission connection with a third transmission wheel (604) through a belt;

the third driving wheel (604), the third driving wheel (604) is connected with the second shaft lever (605) fixedly;

the second shaft lever (605), the second shaft lever (605) is connected with the first fixed plate (606) and the second fixed plate (609) in turn in a rotating way; the second shaft lever (605) is fixedly connected with the first bevel gear (607);

a first bevel gear (607), the first bevel gear (607) and the second bevel gear (608) are meshed with each other;

a second bevel gear (608), wherein the second bevel gear (608) is fixedly connected with a third shaft lever (6012);

the second fixing plate (609), the second fixing plate (609) is fixedly connected with the first connecting frame (6010);

the device comprises a first connecting frame (6010), wherein two groups of first electric push rods (6011) are arranged below the first connecting frame (6010); the first connecting frame (6010) is fixedly connected with the blanking channel (6017);

the two first electric push rods (6011) are connected with the second connecting frame (6013);

the third shaft lever (6012), the third shaft lever (6012) and the stirring paddle (6015) are fixedly connected; the third shaft lever (6012) is rotatably connected with the first connecting plate (6014);

the lower part of the second connecting frame (6013) is fixedly connected with the first hexagonal pressing plate (6016);

the first connecting plate (6014), the first connecting plate (6014) is fixedly connected with the blanking channel (6017);

the blanking channel (6017), the blanking channel (6017) is fixedly connected with the first connecting strip (6018) and the second connecting strip (6019) in sequence; the blanking channel (6017) is fixedly connected with a second electric push rod (6021); a conveying mechanism (6023) is arranged below the blanking channel (6017);

the material receiving platform (6020) is fixedly connected with the first connecting strip (6018) and the second connecting strip (6019) in sequence;

the second electric push rod (6021), the second electric push rod (6021) is connected with the material loading plate (6022);

and the transmission mechanism (6023), wherein the transmission mechanism (6023) is connected with the fixed chassis (1).

3. The hexagonal slope protection brick molding equipment capable of being pre-aligned according to claim 2, wherein: the positioning and reinforcing system (7) comprises a fourth shaft lever (701), a fourth driving wheel (702), a first rotating disc (703), a fifth driving wheel (704), a second connecting plate (705), a fifth shaft lever (706), a sixth driving wheel (707), a first flat gear (708), a sixth shaft lever (709), a second flat gear (7010), a second rotating disc (7011), a first push plate (7012), a first round wire spring (7013), a first limiting sliding plate (7014), a first clamping plate (7015), a second push plate (7016), a second round wire spring (7017), a second limiting sliding plate (7018), a second clamping plate (7019) and a hexagonal channel (7020);

the fourth transmission wheel (702), the fourth transmission wheel (702) is connected with the pre-positioning system (9);

the outer surface of the fourth shaft lever (701) is fixedly connected with a fourth driving wheel (702), a first turntable (703) and a fifth driving wheel (704) in sequence; the fourth shaft lever (701) is rotationally connected with the hexagonal channel (7020); the fourth shaft lever (701) is in rotary connection with the second connecting plate (705);

the first rotating disc (703), the first rotating disc (703) contacts with first push pedal (7012);

the outer ring surface of the fifth driving wheel (704) is in transmission connection with a sixth driving wheel (707) through a belt;

the outer surface of the fifth shaft lever (706) is fixedly connected with a sixth driving wheel (707) and a first flat gear (708) in sequence; the fifth shaft lever (706) is rotationally connected with the hexagonal channel (7020);

a first pinion (708), the first pinion (708) intermeshes with a second pinion (7010);

the outer surface of the sixth shaft lever (709) is fixedly connected with a second flat gear (7010) and a second rotary table (7011) in sequence; the sixth shaft lever (709) is in rotary connection with the hexagonal channel (7020);

the second rotating disc (7011), the second rotating disc (7011) and the second push plate (7016) are contacted with each other;

the first push plate (7012), the first push plate (7012) and the second limit sliding plate (7018) are connected in a sliding manner; the first push plate (7012) is fixedly connected with the first clamping plate (7015);

one side of the first round wire spring (7013) is connected with the first push plate (7012); the other side of the first round wire spring (7013) is connected with a first limit sliding plate (7014);

the first limit sliding plate (7014), the first limit sliding plate (7014) is fixedly connected with the hexagonal channel (7020);

the second push plate (7016), the second push plate (7016) and the second limit slide plate (7018) carry on the sliding connection; the second push plate (7016) is fixedly connected with the second clamping plate (7019);

one side of the second round wire spring (7017) is connected with the second push plate (7016); the other side of the second round wire spring (7017) is connected with a second limit sliding plate (7018);

the second limit sliding plate (7018), the second limit sliding plate (7018) is fixedly connected with the hexagonal channel (7020);

the hexagonal channel (7020) and the hexagonal channel (7020) are fixedly connected with the second supporting plate (3).

4. The hexagonal slope protection brick molding equipment that can counterpoint in advance of claim 3, characterized in that: the material transfer system (8) comprises an electric guide rail (801), a third fixing plate (802), an electric sliding seat (803), a third electric push rod (804), a bearing plate (805), a first power motor (806), a seventh driving wheel (807), an eighth driving wheel (808), a screw rod (809), a first clamping plate (8010), a second clamping plate (8011), a first supporting slide rail (8012) and a second supporting slide rail (8013);

the third fixing plate (802), the third fixing plate (802) is fixedly connected with the fixed chassis (1);

the two sides of the electric guide rail (801) are fixedly connected with the third fixing plate (802); the electric guide rail (801) is in sliding connection with the electric sliding seat (803);

two groups of third electric push rods (804) are arranged above the electric sliding seat (803);

the two third electric push rods (804) are connected with the bearing plate (805);

the bearing plate (805), the bearing plate (805) is connected with the first power motor (806) through a bolt by a nut; the bearing plate (805) is fixedly connected with the first supporting sliding rail (8012) and the second supporting sliding rail (8013) in sequence; the bearing plate (805) is rotationally connected with the screw rod (809);

the output shaft of the first power motor (806) is fixedly connected with the seventh driving wheel (807);

the outer ring surface of the seventh driving wheel (807) is in transmission connection with an eighth driving wheel (808) through a belt;

the eighth driving wheel (808), the eighth driving wheel (808) is fixedly connected with the screw rod (809);

the screw rod (809), the screw rod (809) is in transmission connection with the first clamping plate (8010) and the second clamping plate (8011) in sequence;

the first clamping plate (8010), the first clamping plate (8010) and the first supporting sliding rail (8012) are in sliding connection;

and the second clamping plate (8011), the second clamping plate (8011) and the second supporting slide rail (8013) are in sliding connection.

5. The hexagonal slope protection brick molding equipment that can counterpoint in advance of claim 4, characterized in that: the pre-positioning system (9) comprises a power control assembly (901), a seventh shaft lever (902), a ninth driving wheel (903), a tenth driving wheel (904), an eleventh driving wheel (905), an eighth shaft lever (906), a first eccentric wheel (907), a first object stage (908), a first spring leaf (909), a first supporting underframe (9010), a ninth shaft lever (9011), a twelfth driving wheel (9012), a thirteenth driving wheel (9013), a fourteenth driving wheel (9014), a tenth shaft lever (9015), a second eccentric wheel (9016), a second object stage (9017), a second spring leaf (9018), a second supporting underframe (9019), a fifteenth driving wheel (9020), a third bevel gear (9021), a fourth bevel gear (9022), a driving plate (9023), a first spline shaft (9024), a fourth electric push rod (9025), a sixteenth driving wheel (9026), a connecting frame (9027), a seventeenth driving wheel (9028), An eleventh shaft lever (9029), a third pinion (9030), a gear tooth plate (9031), a third limiting sliding plate (9032), a second hexagonal pressing plate (9033), a third connecting plate (9034), a collecting plate (9035), a fifth electric push rod (9036), a material pressing plate (9037) and a material returning frame (9038);

the power control assembly (901), the power control assembly (901) is connected with the fixed underframe (1); the power control assembly (901) is connected with the first driving wheel (602); the power control assembly (901) is connected with the fourth transmission wheel (702);

the outer surface of the seventh shaft lever (902) is fixedly connected with a ninth driving wheel (903) and a tenth driving wheel (904) in sequence; the seventh shaft lever (902) is rotatably connected with the first supporting underframe (9010);

a ninth driving wheel (903), wherein the ninth driving wheel (903) is connected with the power control component (901);

the outer ring surface of the tenth driving wheel (904) is in transmission connection with an eleventh driving wheel (905) through a belt;

an eleventh driving wheel (905), wherein the eleventh driving wheel (905) is fixedly connected with the eighth shaft lever (906);

the outer surface of the eighth shaft lever (906) is sequentially provided with three groups of first eccentric wheels (907); the eighth shaft rod (906) is rotatably connected with the first object stage (908);

a first objective table (908), wherein a group of first spring leaves (909) are arranged at four corners below the first objective table (908);

the four first spring pieces (909) are connected with the first supporting base frame (9010);

the first supporting underframe (9010), the first supporting underframe (9010) is fixedly connected with the fixed underframe (1);

the outer surface of the ninth shaft lever (9011) is fixedly connected with a twelfth driving wheel (9012) and a thirteenth driving wheel (9013) in sequence;

a twelfth driving wheel (9012), wherein the twelfth driving wheel (9012) is connected with the power control assembly (901);

the outer ring surface of the thirteenth driving wheel (9013) is in transmission connection with the fourteenth driving wheel (9014) through a belt;

a fourteenth driving wheel (9014), wherein the fourteenth driving wheel (9014) is fixedly connected with the tenth shaft lever (9015);

the outer surface of the tenth shaft lever (9015) is sequentially provided with three groups of second eccentric wheels (9016); the tenth shaft lever (9015) is rotatably connected with the second object stage (9017);

a group of second spring pieces (9018) are arranged at four corners below the second object stage (9017);

the four second spring pieces (9018) are connected with the second supporting underframe (9019);

the second supporting underframe (9019), the second supporting underframe (9019) is fixedly connected with the fixed underframe (1);

a fifteenth transmission wheel (9020), wherein the fifteenth transmission wheel (9020) is connected with the power control assembly (901); a fifteenth transmission wheel (9020) is fixedly connected with a third bevel gear (9021) through a rotating shaft;

the third bevel gear (9021) is meshed with the fourth bevel gear (9022);

the fourth bevel gear (9022) is connected with the transmission plate (9023) through a shaft sleeve; the fourth bevel gear (9022) is in transmission connection with the first spline shaft (9024) through a shaft sleeve;

the transmission plate (9023), the transmission plate (9023) is connected with the fourth electric push rod (9025);

the first spline shaft (9024) is fixedly connected with the sixteenth driving wheel (9026); the first spline shaft (9024) is rotationally connected with the connecting frame (9027);

the fourth electric push rod (9025), the fourth electric push rod (9025) is fixedly connected with the connecting frame (9027);

the outer ring surface of the sixteenth driving wheel (9026) is in transmission connection with a seventeenth driving wheel (9028) through a belt;

the connecting frame (9027), the connecting frame (9027) is fixedly connected with the fixed underframe (1);

a seventeenth driving wheel (9028), wherein the seventeenth driving wheel (9028) is fixedly connected with the eleventh shaft lever (9029);

the eleventh shaft lever (9029) is fixedly connected with the third horizontal gear (9030); the eleventh shaft lever (9029) is rotatably connected with the third connecting plate (9034);

the third flat gear (9030) is meshed with the pinion plate (9031) in a mutual meshing mode;

the gear tooth plate (9031) is fixedly connected with the third limiting sliding plate (9032);

the third limiting sliding plate (9032), the third limiting sliding plate (9032) is in sliding connection with the third connecting plate (9034); the third limiting sliding plate (9032) is fixedly connected with the second hexagonal pressing plate (9033);

the third connecting plate (9034) is fixedly connected with the gathering plate (9035);

the lower part of the assembly plate (9035) is provided with two groups of fifth electric push rods (9036); the collection plate (9035) is fixedly connected with the first supporting plate (2);

the two groups of fifth electric push rods (9036) are connected with the material pressing plate (9037);

the material pressing plate (9037) is fixedly connected with the material returning frame (9038).

6. The hexagonal slope protection brick molding equipment capable of being pre-aligned according to claim 5, wherein: the power control assembly (901) comprises a second power motor (90101), a second spline shaft (90102), an eighteenth driving wheel (90103), a transmission sleeve (90104), a fourth flat gear (90105), a connecting plate (90106), a sixth electric push rod (90107), a twelfth shaft rod (90108), a fifth flat gear (90109), a nineteenth driving wheel (90110), a thirteenth shaft rod (90111), a sixth flat gear (90112), a twentieth driving wheel (90113), a fourteenth shaft rod (90114), a twenty-first driving wheel (90115) and a twenty-second driving wheel (90116);

the outer ring surface of the eighteenth driving wheel (90103) is in transmission connection with the first driving wheel (602) through a belt;

the outer ring surface of the nineteenth driving wheel (90110) is in transmission connection with the fourth driving wheel (702) through a belt;

the second power motor (90101), the second power motor (90101) is connected with the fixed underframe (1);

the outer ring surface of the twenty-second driving wheel (90116) is in transmission connection with the ninth driving wheel (903) through a belt; the outer ring surface of the twenty-second driving wheel (90116) is in transmission connection with a twelfth driving wheel (9012) through a belt; the outer ring surface of the twenty-second driving wheel (90116) is in transmission connection with a fifteenth driving wheel (9020) through a belt;

the second spline shaft (90102), the second spline shaft (90102) is connected with the second power motor (90101); the second spline shaft (90102) is in transmission connection with the transmission sleeve (90104);

the transmission sleeve (90104), the transmission sleeve (90104) is fixedly connected with the fourth flat gear (90105); the transmission sleeve (90104) is connected with the connecting plate (90106);

the fourth flat gear (90105) is positioned on the side surface between the fifth flat gear (90109) and the sixth flat gear (90112);

a connecting plate (90106), wherein the connecting plate (90106) is connected with a sixth electric push rod (90107);

the sixth electric push rod (90107), the sixth electric push rod (90107) is fixedly connected with the fixed underframe (1);

the twelfth shaft lever (90108) is fixedly connected with the fifth flat gear (90109) and the nineteenth driving wheel (90110) in sequence; the twelfth shaft lever (90108) is rotatably connected with the fixed underframe (1);

the thirteenth shaft lever (90111) is fixedly connected with the sixth flat gear (90112) and the twentieth transmission wheel (90113) in sequence; the thirteenth shaft lever (90111) is rotationally connected with the fixed underframe (1);

the outer ring surface of the twentieth driving wheel (90113) is in transmission connection with the twenty-first driving wheel (90115) through a belt;

a fourteenth shaft lever (90114), the outer surface of the fourteenth shaft lever (90114) is fixedly connected with a twenty-first driving wheel (90115) and a twenty-second driving wheel (90116) in sequence; the fourteenth shaft lever (90114) is rotatably connected to the fixed chassis (1).

7. The hexagonal slope protection brick molding equipment capable of being pre-aligned according to claim 6, wherein: the upper part of the material receiving platform (6020) is a hexagonal frustum, and the lower square is a hexagonal prism.

8. The hexagonal slope protection brick molding equipment capable of being pre-aligned according to claim 7, wherein: the connection position of the fourth shaft lever (701) and the first rotating disc (703) deviates from the axle center position of the first rotating disc (703).

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