CN112663454B - Cobblestone rectangular brick processing device - Google Patents

Abstract

The invention relates to the technical field of building materials, in particular to a cobblestone rectangular brick processing device. The technical problem to be solved is as follows: provides a cobblestone rectangular brick processing device. The technical scheme of the invention is as follows: a cobblestone rectangular brick processing device comprises a supporting frame, a first damp-proof base, a second damp-proof base, a control screen, a cobblestone feeding system, a grid net feeding and gluing system and a cobblestone brick processing system; the grid net feeding and gluing system is connected with the supporting frame; the cobblestone brick processing system is connected with the cobblestone feeding system. The invention can rapidly prepare the cobblestone 'brick' with evenly distributed cobblestones and no upward tilting, and the cobblestone strips are arranged at the two sides of the edge of the cobblestone 'brick', thereby being beneficial to ensuring the uniformity of the subsequent cobblestone pavement, greatly improving the construction speed of the cobblestone pavement and facilitating the operation.

Description

Cobblestone rectangular brick processing device

Technical Field

The invention relates to the technical field of building materials, in particular to a cobblestone rectangular brick processing device.

Background

Cobblestones are named because they resemble cobblestones. Cobblestones are widely spread in various places, wherein the cobblestones are generally spread on the paths of parks and courtyards, so that the attractiveness of the paths can be improved. Cobblestones are when carrying out large tracts of land and laying, because the area of handling is big, need carry a large amount of cobblestones, can't realize laying fast, increase the engineering time, the cobblestones of laying simultaneously are inhomogeneous, and some cobblestones upwarp upwards, influence holistic pleasing to the eye, and then can't guarantee the quality that cobblestones laid the road surface, to the above-mentioned problem, we have proposed when laying cobblestones by a large scale, for the level and smooth reduction engineering time of assurance road surface, can fix cobblestones in a rectangle grid net in advance, then lay cobblestones on the road surface according to the mode of laying the ceramic tile, improve a cobblestone rectangle brick processingequipment of work efficiency, solve above-mentioned problem.

Disclosure of Invention

In order to overcome the cobblestone when carrying out large tracts of land and laying, because the area of handling is big, need carry a large amount of cobblestones, can't realize laying fast, increase the engineering time, the cobblestone of laying simultaneously is inhomogeneous, and partial cobblestone upwards perks, influences holistic pleasing to the eye, and then can't guarantee the shortcoming of the quality that the road surface was laid to the cobblestone, the technical problem that will solve is: provides a cobblestone rectangular brick processing device.

The technical scheme of the invention is as follows: a cobblestone rectangular brick processing device comprises a supporting frame, a first damp-proof base, a second damp-proof base, a control screen, a cobblestone feeding system, a grid net feeding and gluing system and a cobblestone brick processing system; the supporting frame is used for supporting the device; the first damp-proof base is fixedly connected with the supporting frame; the second damp-proof base is fixedly connected with the supporting frame; the control screen is connected with the supporting frame; the cobblestone feeding system is connected with the supporting frame; the grid net feeding and gluing system is connected with the supporting frame; the cobblestone brick processing system is connected with the supporting frame and the cobblestone brick feeding system.

As a preferred technical scheme of the invention, the cobble feeding system comprises a feeding box, a normal position cabin, a transmission rod, a limiting arc-shaped block, a first groove plate, a first transmission plate, a second transmission plate, a first shaft rod, a first L-shaped connecting plate, a first bevel gear, a second shaft rod, a second groove plate, a first T-shaped sliding block, a second T-shaped sliding block, a first push plate, a second push plate, a first spring, a second spring, a bidirectional cam, a conveying belt assembly, a limiting baffle, a first connecting frame and a transfer table; the feeding box is connected with the supporting frame through a bolt by a nut; the normal cabin is fixedly connected with the feeding box; the transmission rod is rotatably connected with the righting cabin; the limiting arc-shaped block is fixedly connected with the transmission rod; the first groove plate is in sliding connection with the transmission rod; the first transmission plate is in transmission connection with the transmission rod; the second transmission plate is in transmission connection with the first transmission plate; the first shaft lever is connected with the cobblestone brick processing system of the grid net feeding and gluing system and is fixedly connected with the second transmission plate; the first L-shaped connecting plate is fixedly connected with the feeding box and is rotatably connected with the first shaft rod; the first bevel gear is fixedly connected with the first shaft rod; the second bevel gear is meshed with the first bevel gear; the second shaft lever is rotationally connected with the first L-shaped connecting plate and is fixedly connected with the second bevel gear; the second groove plate is fixedly connected with the first L-shaped connecting plate through a connecting rod; the first T-shaped sliding blocks are arranged in two groups, and the two groups of first T-shaped sliding blocks are in sliding connection with the second groove plate; the two groups of second T-shaped sliding blocks are arranged, and the two groups of second T-shaped sliding blocks are in sliding connection with the second groove plate; the first push plate is fixedly connected with the two groups of first T-shaped sliding blocks in sequence; the second push plate is fixedly connected with the two groups of second T-shaped sliding blocks in sequence; one side of the first spring is fixedly connected with the first push plate, and the other side of the first spring is fixedly connected with the second push plate; one side of the second spring is fixedly connected with the first push plate, and the other side of the second spring is fixedly connected with the second push plate; the bidirectional cam is fixedly connected with the second shaft rod; the conveyor belt assembly is fixedly connected with the support frame and is positioned below the righting cabin; the two groups of limiting baffles are arranged at the same time, are respectively positioned at the two sides of the conveyor belt assembly, and are fixedly connected with the supporting frame; the first connecting frame is connected with the cobblestone brick processing system and fixedly connected with the supporting frame; the transfer table is fixedly connected with the first connecting frame.

As a preferred technical scheme, the grid mesh feeding and gluing system comprises a first motor, a first driving wheel, a second driving wheel, a third bevel gear, a fourth bevel gear, a first screw rod, a third driving wheel, a fourth driving wheel, a second screw rod, a driving frame, a first object carrying plate, a second connecting plate, a first electric sliding block, a first electric sliding rod, a connecting block, a glue spreading roller, a fifth driving wheel, a round roller and a shifting plate; the first motor is connected with the supporting frame; the first driving wheel is fixedly connected with an output shaft of the first motor; the second driving wheel is rotationally connected with the supporting frame through a rotating shaft, and the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt; the third bevel gear is rotationally connected with the supporting frame through a rotating shaft and synchronously rotates with the second transmission wheel through the rotating shaft; the fourth bevel gear is meshed with the third bevel gear; the first screw rod is rotationally connected with the supporting frame and fixedly connected with the fourth bevel gear; the third driving wheel is fixedly connected with the first screw rod; the outer ring surface of the fourth driving wheel is in transmission connection with the third driving wheel through a belt; the second screw rod is rotatably connected with the support frame and is fixedly connected with the fourth driving wheel; one side of the transmission frame is in transmission connection with the first screw rod, and the other side of the transmission frame is in transmission connection with the second screw rod; the first carrying plate is in bolt connection with the transmission frame through a nut; the second connecting plate is fixedly connected with the first carrying plate; the first electric sliding block is fixedly connected with the second connecting plate; the first electric sliding rod is connected with the first electric sliding block in a sliding manner; the connecting block is fixedly connected with the first electric sliding rod; the glue spreading roller is rotationally connected with the connecting block; the outer ring surface of the fifth driving wheel is in transmission connection with the second driving wheel through a belt; the round roller is rotationally connected with the supporting frame and fixedly connected with the fifth driving wheel; the shifting plate is fixedly connected with the round roller.

As a preferred technical scheme of the invention, the cobblestone brick processing system comprises a first electric push rod, a heating plate, a second motor, a sixth transmission wheel, an eighth transmission wheel, a ninth transmission wheel, a tenth transmission wheel, a telescopic rod, a fifth bevel gear, a second L-shaped connecting plate, a second electric push rod, a sixth bevel gear, a third transmission plate, a fourth transmission plate, a limiting push-flat trough plate, a guide sliding block, a linear sliding rail, a second electric sliding rod, an electric sliding sleeve, a second carrying plate and a rectangular limiting frame; the first electric push rods are arranged in two groups, and the two groups of first electric push rods are fixedly connected with the supporting frame; the heating plate is fixedly connected with the two groups of first electric push rods in sequence; the second motor is connected with the supporting frame; the sixth driving wheel is fixedly connected with the output shaft of the second motor; the eighth driving wheel is fixedly connected with the first shaft rod, and the outer ring surface of the eighth driving wheel is in transmission connection with the sixth driving wheel through a belt; the ninth driving wheel is fixedly connected with the first shaft rod, and the axis of the ninth driving wheel and the eighth driving wheel synchronously rotate; the outer ring surface of the tenth driving wheel is in transmission connection with the ninth driving wheel through a belt; the telescopic rod is rotatably connected with the supporting frame, and the outer surface of the telescopic rod is fixedly connected with the tenth driving wheel; the fifth bevel gear is fixedly connected with the telescopic rod; the second L-shaped connecting plate is rotatably connected with the telescopic rod; the other side of the second electric push rod is fixedly connected with the second L-shaped connecting plate; the sixth bevel gear is meshed with the fifth bevel gear and is in rotary connection with the second L-shaped connecting plate through a rotating shaft; the third transmission plate is in rotating connection with the second L-shaped connecting plate through a rotating shaft, and the third transmission plate and the sixth bevel gear synchronously rotate through the rotating shaft; the fourth transmission plate is rotatably connected with the third transmission plate; the limiting push flat groove plate is in transmission connection with the fourth transmission plate; two groups of guide sliding blocks are arranged, and the two groups of guide sliding blocks are fixedly connected to the limiting push flat groove plate; the linear slide rail is fixedly connected with the second L-shaped connecting plate and is sequentially in sliding connection with the two groups of guide sliding blocks; the second electric sliding rod is fixedly connected with the supporting frame and is positioned below the limiting push flat groove plate; the electric sliding sleeve is connected with the second electric sliding rod in a sliding manner; the second carrying plate is connected with the electric sliding sleeve; the rectangular limiting frame is fixedly connected with the first connecting frame.

As a preferred technical scheme of the invention, a sliding sleeve is arranged at the joint of the transmission rod and the first groove plate.

In a preferred embodiment of the present invention, the transfer table is inclined from the limit stop toward the first link frame.

As a preferred technical scheme of the invention, both sides of the transmission frame are provided with a screw rod transmission sleeve.

As a preferred technical scheme of the invention, a heat conducting soft layer is arranged below the heating plate.

As a preferred technical scheme of the invention, the electric sliding sleeve is connected with the second carrying plate through a buckle.

As a preferable technical scheme of the invention, a rectangular slot is arranged above the second carrying plate.

Compared with the prior art, the invention has the following advantages:

the method is characterized by comprising the following steps of firstly, solving the problems that when large-area cobblestones are paved, a large amount of cobblestones need to be carried due to large processing area, quick paving cannot be realized, construction time is prolonged, meanwhile, the paved cobblestones are uneven, part of cobblestones tilt upwards, the overall attractiveness is affected, and further the quality of a pavement paved with the cobblestones cannot be guaranteed;

secondly, designing a cobblestone feeding system, a grid net feeding and gluing system and a cobblestone brick processing system, when in use, sequentially sending out a grid net through the grid net feeding and gluing system, smearing liquid adhesive glue on the upper surface of the grid net, then continuously sending out disordered cobblestones in a two-character shape by the cobblestone feeding system, transferring the cobblestones to the cobblestone brick processing system in a flat posture, and then uniformly filling the cobblestones on the grid net through the cobblestone brick processing system so as to obtain a cobblestone brick';

and thirdly, the cobblestone 'brick' which is uniformly distributed and does not tilt upwards can be quickly prepared, and meanwhile, the cobblestone strips which are in a shape like a straight line are arranged on two sides of the edge of the cobblestone 'brick', so that the subsequent cobblestone paved ground is tidy, the construction speed of the cobblestone pavement is greatly improved, and the operation is convenient.

Drawings

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic view of the pebble feeding system of the present invention;

FIG. 3 is a schematic view of a first assembly of the pebble feeding system of the invention;

FIG. 4 is a schematic view of a second assembly of the pebble feeding system of the invention;

FIG. 5 is a schematic structural view of a feeding and gluing system for a grid mesh according to the present invention;

FIG. 6 is a schematic structural view of a cobblestone brick processing system according to the present invention;

fig. 7 is an enlarged view of the region S of the present invention.

Labeled as: 1-a support frame, 2-a first moisture-proof base, 3-a second moisture-proof base, 4-a control screen, 5-a cobble feeding system, 6-a grid feeding gluing system, 7-a cobble brick processing system, 501-a feeding box, 502-a normal position cabin, 503-a transmission rod, 504-a limit arc block, 505-a first slot plate, 506-a first transmission plate, 507-a second transmission plate, 508-a first shaft rod, 509-a first L-shaped connecting plate, 5010-a first bevel gear, 5011-a second bevel gear, 5012-a second shaft rod, 5013-a second slot plate, 5014-a first T-shaped sliding block, 5015-a second T-shaped sliding block, 5016-a first push plate, 5017-a second push plate, 5018-a first spring, 5019-a second spring, 5020-bidirectional cam, 5021-conveyor belt component, 5022-limit baffle, 5023-first connecting frame, 5024-transfer table, 601-first motor, 602-first driving wheel, 603-second driving wheel, 604-third bevel gear, 605-fourth bevel gear, 606-first screw rod, 607-third driving wheel, 608-fourth driving wheel, 609-second screw rod, 6010-driving frame, 6011-first carrying plate, 6012-second connecting plate, 6013-first electric slider, 6014-first electric slider, 6015-connecting block, 6016-glue coating roller, 6017-fifth driving wheel, 6018-circular roller, 6019-stirring plate, 701-first electric push rod, 702-heating plate, 703-second motor, 704-sixth driving wheel, 705-an eighth driving wheel, 706-a ninth driving wheel, 707-a tenth driving wheel, 708-a telescopic rod, 709-a fifth bevel gear, 7010-a second L-shaped connecting plate, 7011-a second electric push rod, 7012-a sixth bevel gear, 7013-a third driving plate, 7014-a fourth driving plate, 7015-a limiting leveling groove plate, 7016-a guide sliding block, 7017-a linear sliding rail, 7018-a second electric sliding rod, 7019-an electric sliding sleeve, 7020-a second carrying plate and 7021-a rectangular limiting frame.

Detailed Description

It is to be noted that, in the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained throughout the description can be transferred in a meaningful manner to identical components having the same reference numerals or the same component names. The positional references selected in the description, such as for example up, down, sideways, etc., also refer to the directly described and illustrated figures and are to be interpreted as meaning to a new position when the position is changed.

Example 1

A cobblestone rectangular brick processing device is shown in figures 1-7 and comprises a supporting frame 1, a first moisture-proof base 2, a second moisture-proof base 3, a control screen 4, a cobblestone feeding system 5, a grid net feeding and gluing system 6 and a cobblestone brick processing system 7; the supporting frame 1 is used for supporting the device; the first damp-proof base 2 is fixedly connected with the supporting frame 1; the second damp-proof base 3 is fixedly connected with the supporting frame 1; the control screen 4 is connected with the supporting frame 1; the cobblestone feeding system 5 is connected with the supporting frame 1; the grid net feeding and gluing system 6 is connected with the supporting frame 1; the cobblestone brick processing system 7 is connected with the supporting frame 1, and the cobblestone brick processing system 7 is connected with the cobblestone feeding system 5.

When the device is used, the device is horizontally placed at a place to be used, a power supply is connected, the control screen 4 is opened to control the operation of the device, a sufficient number of cobbles and a rectangular grid net are prepared, a proper amount of cobbles are added into a cobble feeding system 5, the rectangular grid net is added into a grid net feeding and gluing system 6, the grid net is sequentially sent out through the grid net feeding and gluing system 6, liquid adhesive glue is smeared on the upper surface of the grid net, then the cobble feeding system 5 continuously sends out disordered cobbles in a two-character shape, the cobbles are transferred into a cobble processing system 7 in a flat posture, then the cobbles are uniformly filled on the grid net through the cobble processing system 7, then cobble 'bricks' are obtained, cobble 'bricks' capable of rapidly preparing cobble bricks which are uniformly distributed and do not tilt upwards are prepared, and cobble strips are arranged on two sides of the edge of the cobble 'bricks', the method is favorable for ensuring the regularity of the ground paved with subsequent cobblestones, greatly improves the construction speed of cobblestone pavements, and has the effect of convenient operation.

The cobblestone feeding system 5 comprises a feeding box 501, an righting cabin 502, a transmission rod 503, a limiting arc-shaped block 504, a first groove plate 505, a first transmission plate 506, a second transmission plate 507, a first shaft rod 508, a first L-shaped connecting plate 509, a first bevel gear 5010, a second bevel gear 5011, a second shaft rod 5012, a second groove plate 5013, a first T-shaped slider 5014, a second T-shaped slider 5015, a first push plate 5016, a second push plate 5017, a first spring 5018, a second spring 5019, a bidirectional cam 5020, a transmission belt assembly 5021, a limiting baffle 5022, a first connecting frame 5023 and a transfer platform 5024; the feeding box 501 is connected with the supporting frame 1 through a bolt by a nut; the position correcting cabin 502 is fixedly connected with the feeding box 501; the transmission rod 503 is rotatably connected with the righting cabin 502; the limiting arc-shaped block 504 is fixedly connected with the transmission rod 503; the first slot plate 505 is connected with the transmission rod 503 in a sliding way; the first transmission plate 506 is in transmission connection with the transmission rod 503; the second transmission plate 507 is in transmission connection with the first transmission plate 506; the first shaft rod 508 is connected with the grid net feeding and gluing system 6 and the cobblestone brick processing system 7, and the first shaft rod 508 is fixedly connected with the second transmission plate 507; the first L-shaped connecting plate 509 is fixedly connected with the feeding box 501, and the first L-shaped connecting plate 509 is rotatably connected with the first shaft 508; the first bevel gear 5010 is fixedly connected with the first shaft 508; the second bevel gear 5011 is engaged with the first bevel gear 5010; the second shaft 5012 is rotatably connected with the first L-shaped connecting plate 509, and the second shaft 5012 is fixedly connected with the second bevel gear 5011; the second slot plate 5013 is fixedly connected with the first L-shaped connecting plate 509 through a connecting rod; the first T-shaped sliding blocks 5014 are provided with two groups, and the two groups of the first T-shaped sliding blocks 5014 are in sliding connection with the second slot plate 5013; the second T-shaped sliding blocks 5015 are provided with two groups, and the two groups of second T-shaped sliding blocks 5015 are in sliding connection with the second slot plate 5013; the first push plate 5016 is fixedly connected with the two groups of first T-shaped sliding blocks 5014 in sequence; the second push plate 5017 is fixedly connected with the two groups of second T-shaped sliding blocks 5015 in sequence; one side of the first spring 5018 is fixedly connected with the first push plate 5016, and the other side of the first spring 5018 is fixedly connected with the second push plate 5017; one side of the second spring 5019 is fixedly connected with the first push plate 5016, and the other side of the second spring 5019 is fixedly connected with the second push plate 5017; the bidirectional cam 5020 is fixedly connected with the second shaft 5012; the conveyor belt assembly 5021 is fixedly connected with the support frame 1, and the conveyor belt assembly 5021 is positioned below the righting cabin 502; the two groups of limit baffles 5022 are arranged, the two groups of limit baffles 5022 are respectively positioned at two sides of the conveyor belt component 5021, and the two groups of limit baffles 5022 are fixedly connected with the support frame 1; the first connecting frame 5023 is connected with the cobblestone brick processing system 7, and the first connecting frame 5023 is fixedly connected with the supporting frame 1; the transfer stage 5024 is fixedly connected to the first connecting rack 5023.

When in use, the cobblestones are added into the feeding box 501, then the cobblestones sequentially enter the righting compartment 502, at the same time, the cobblestone brick processing system 7 drives the first shaft rod 508 to rotate, further the first shaft rod 508 drives the second transmission plate 507 to rotate, the second transmission plate 507 drives the first transmission plate 506 to transmit, at the same time of the transmission of the first transmission plate 506, the transmission rod 503 is driven to move up and down along the track of the first trough plate 505, further the transmission rod 503 drives the limiting arc-shaped block 504 to move back and forth in the vertical direction, further the cobblestones at the upper half part in the righting compartment 502 are transferred to the lower half part in the righting compartment 502 in two batches, meanwhile, the relatively flat two sides of the cobblestones are respectively contacted with the righting compartment 502 and the limiting arc-shaped block 504, further the cobblestones sequentially drop down on the conveyor belt assembly 5021 in two batches, meanwhile, the cobblestones move on the conveyor belt assembly 5021 in a flat state, further, the conveyor belt assembly 5021 is externally connected with a motor for transmission, and then the conveyor belt assembly 5021 drives cobblestones positioned on two sides of a synchronous belt of the conveyor belt assembly 5021 to be transferred to working positions of a first push plate 5016 and a second push plate 5017, at the moment, a first shaft lever 508 drives a first bevel gear 5010 to rotate, the first bevel gear 5010 drives a second bevel gear 5011 meshed with the first bevel gear 5010 to rotate, the second bevel gear 5011 drives a two-way cam 5020 to rotate through a second shaft lever 5012, in the process of rotating the two-way cam 5020, the two-way cam 5020 intermittently drives the second push plate 5017 and the first push plate 5016 to move towards the direction far away from the middle part of the two-way cam 5020, so that the cobblestones on one side of the synchronous belt of the conveyor belt assembly 5021 are pushed by the first push plate 5016 to move towards the direction close to the limit baffle 5022, further, the orientation of cobblestones partially perpendicular to the limit baffle 5022 is changed to be parallel to the limit baffle 5022, meanwhile, the second 5017 is matched with another set of limit baffle 5022 to change the orientation of the cobblestones on the other side of the conveyor belt assembly 5021, in the process, the first spring 5018 and the second spring 5019 drive the first push plate 5016 and the second push plate 5017 to reset, meanwhile, the two groups of first T-shaped sliders 5014 and the two groups of second T-shaped sliders 5015 slide in the second slot plate 5013 to provide guiding and supporting functions, further, the conveyor belt assembly 5021 drives the cobblestones to be transferred to the transfer table 5024 and then to the cobblestone brick processing system 7, feeding of the cobblestones is achieved by the system, and the originally disordered cobblestones can be continuously transferred to the cobblestone brick processing system 7 in a two-character shape.

The grid mesh feeding and gluing system 6 comprises a first motor 601, a first driving wheel 602, a second driving wheel 603, a third bevel gear 604, a fourth bevel gear 605, a first screw 606, a third driving wheel 607, a fourth driving wheel 608, a second screw 609, a driving frame 6010, a first loading plate 6011, a second connecting plate 6012, a first electric slide block 6013, a first electric slide bar 6014, a connecting block 6015, a gluing roller 6016, a fifth driving wheel 6017, a round roller 6018 and a shifting plate 6019; the first motor 601 is connected with the support frame 1; the first driving wheel 602 is fixedly connected with an output shaft of the first motor 601; the second driving wheel 603 is rotatably connected with the supporting frame 1 through a rotating shaft, and the outer annular surface of the second driving wheel 603 is in transmission connection with the first driving wheel 602 through a belt; the third bevel gear 604 is rotatably connected with the supporting frame 1 through a rotating shaft, and the third bevel gear 604 and the second driving wheel 603 synchronously rotate through the rotating shaft; a fourth bevel gear 605 meshes with the third bevel gear 604; the first screw 606 is rotatably connected with the support frame 1, and the first screw 606 is fixedly connected with the fourth bevel gear 605; the third transmission wheel 607 is fixedly connected with the first screw rod 606; the outer ring surface of the fourth driving wheel 608 is in transmission connection with a third driving wheel 607 through a belt; the second screw 609 is rotatably connected with the supporting frame 1, and the second screw 609 is fixedly connected with a fourth driving wheel 608; one side of the transmission frame 6010 is in transmission connection with the first lead screw 606, and the other side of the transmission frame 6010 is in transmission connection with the second lead screw 609; the first object carrying plate 6011 is bolted to the transmission frame 6010 through nuts; the second connecting plate 6012 is fixedly connected to the first carrier plate 6011; the first electric slide block 6013 is fixedly connected with the second connecting plate 6012; the first electric slide bar 6014 is slidably connected to the first electric slide block 6013; the connecting block 6015 is fixedly connected with a first electric slide bar 6014; the glue coating roller 6016 is rotatably connected with the connecting block 6015; the outer ring surface of the fifth driving wheel 6017 is in transmission connection with the second driving wheel 603 through a belt; the round roller 6018 is rotatably connected with the support frame 1, and the round roller 6018 is fixedly connected with a fifth driving wheel 6017; the shifting plate 6019 is fixedly connected with the round roller 6018.

Firstly, a rectangular grid net is stacked on a first carrying plate 6011, then a second carrying plate 7020 of the cobblestone brick processing system 7 moves to a working position of a glue coating roller 6016, an output shaft of a first motor 601 drives a first driving wheel 602 to rotate, an outer ring surface of the first driving wheel 602 drives a second driving wheel 603 to rotate through a belt, the second driving wheel 603 drives a third bevel gear 604 to rotate, a third bevel gear 604 drives a fourth bevel gear 605 engaged with the third bevel gear to rotate, the fourth bevel gear 605 drives a first lead screw 606 to rotate, the first lead screw 606 drives a driving frame 6010 to transmit downwards, meanwhile, the first lead screw 606 drives a third driving wheel 607 to rotate, an outer ring surface of the third driving wheel 607 drives a fourth driving wheel 608 to rotate through a belt, the fourth driving wheel 608 drives a second lead screw 609 to rotate, and the second lead screw 609 drives the other side of the driving frame 6010 to transmit upwards, so that the driving frame 6010 vertically moves upwards for a distance, further driving the first loading plate 6011 to move upwards for a certain distance, then moving a layer of the highest rectangular grid mesh above the first loading plate 6011 to a working range of a shifting plate 6019, further, while the rectangular grid mesh moves upwards, driving an outer ring surface of a second driving wheel 603 to rotate by a belt, driving a fifth driving wheel 6017 by the fifth driving wheel 6017 to rotate, driving the shifting plate 6019 by a circular roller 6018 to rotate counterclockwise, further contacting the shifting plate 6019 with the rectangular grid mesh, transferring the rectangular grid mesh onto a second loading plate 7020, further, adding a liquid adhesive glue in advance on a glue coating roller 6016, moving the first electric slide bar 6014 in a direction away from the first motor 601 under the action of a first electric slide block 6013, then driving the glue coating roller 6016 to move on the rectangular grid mesh added by the second loading plate 7020 by a connecting block 6015, and simultaneously rotating the glue coating roller 6 itself to uniformly fill the rectangular grid mesh with the liquid adhesive glue, this system allows for accurate transfer of the rectangular grid mesh onto the second carrier plate 7020 and application of a liquid adhesive to the rectangular grid mesh.

When the cobble feeding device is used, the second object carrying plate 7020 moves upwards and drives the rectangular grid mesh coated with the liquid adhesive to move to the position below the rectangular limit frame 7021, then the cobble feeding system 5 transfers cobbles into the rectangular limit frame 7021 in a two-character shape, namely the rectangular grid mesh, the cobbles are transferred to the tail end of the rectangular limit frame 7021 close to one side of the second electric slide bar 7018 under the action of inertia, so that linear cobble strips attached to the inner wall of the rectangular limit frame 7021 are filled in two sides of the rectangular limit frame 7021, furthermore, with the addition of the cobbles, the cobbles are transferred to the middle of the rectangular limit frame 7021 under the limit action of the limit leveling slot plate 7015, so that the rectangular limit frame 7021 is uniformly filled, meanwhile, an output shaft of the second motor 703 drives the sixth driving wheel 704 to rotate, and an outer annular surface of the sixth driving wheel 704 drives the eighth driving wheel 705 to rotate through a belt, further, the eighth driving wheel 705 drives the first shaft 508 to rotate, so as to provide power for the pebble feeding system 5, meanwhile, the first shaft 508 drives the ninth driving wheel 706 to rotate, the ninth driving wheel 706 drives the tenth driving wheel 707 to rotate, further, the tenth driving wheel 707 drives the telescopic rod 708 to rotate, the telescopic rod 708 drives the fifth bevel gear 709 to rotate, the fifth bevel gear 709 drives the sixth bevel gear 7012 engaged with the fifth bevel gear to rotate, the sixth bevel gear 7012 drives the third driving plate 7013 to rotate, the third driving plate 7013 drives the fourth driving plate 7014 to rotate, while the fourth driving plate 7014 drives the limit leveling slotted plate 7015 to reciprocate in the horizontal direction, meanwhile, the two groups of guide sliders 7016 slide on the linear slide rail 7017 to play a guiding and supporting role, further, the reciprocating limit leveling slotted plate 7015 pushes the pebbles in the rectangular limit frame 7021 to be flat, so that the pebbles can lie in a flat posture, meanwhile, the push rod of the second electric push rod 7011 is pushed outwards, at this time, the telescopic rod 708 is stretched to drive the second L-shaped connecting plate 7010 to move towards the direction far away from the tenth driving wheel 707, and further drive the limit push flat slotted plate 7015 to slowly move towards the direction far away from the tenth driving wheel 707 above the rectangular limit frame 7021, cobbles temporarily stored in the upward tilting part of the rectangular limit frame 7021 are uniformly filled in the rectangular limit frame 7021, and the upward tilting of the cobbles is prevented, so that the cobbles are uniformly filled in the rectangular limit frame 7021, and two linear cobblestone strips are laid on two sides of the rectangular limit frame 7021, further, the limit push flat slotted plate 7015 moves towards the direction close to the tenth driving wheel 707 under the action of the second electric push rod 7011, so that the position above the rectangular limit frame 7021 is not shielded any more, then the heating plate 702 is electrified, and simultaneously the push rods of the two groups of first electric push rods 701 are simultaneously pushed outwards, and then drive the hot plate 702 to move downwards, thus fix the cobblestone firmly on the rectangular grid net, heat the liquid adhesive glue on the rectangular grid net at the same time, make it can stick rectangular grid net and cobblestone, further, before using, install the second year thing board 7020 on the electronic sliding sleeve 7019, while processing the cobblestone rectangle 'brick', take the second year thing board 7020 off and take out the cobblestone rectangle 'brick', reciprocate on the second electronic slide bar 7018 through the electronic sliding sleeve 7019, and then drive the second year thing board 7020 to reciprocate, this system has realized laying the cobblestone on the rectangular grid net evenly.

Wherein, a sliding sleeve is arranged at the connection position of the transmission rod 503 and the first slot plate 505.

The transmission rod 503 slides relative to the first slot plate 505 through the sliding sleeve, so that the transmission rod 503 moves in the vertical direction during transmission.

The transfer stage 5024 is inclined from the limit stop 5022 toward the first link 5023.

So that the cobblestones falling on the transfer table 5024 can be transferred to the cobblestone brick processing system 7 under the action of gravity.

Wherein, a screw rod transmission sleeve is arranged on both sides of the transmission frame 6010.

The first lead screw 606 and the second lead screw 609 drive the transmission frame 6010 to move up and down through lead screw transmission sleeves on two sides of the transmission frame 6010.

Wherein, a heat conducting soft layer is arranged below the heating plate 702.

When the heating plate 702 presses the cobblestones downwards, heat is transferred to the liquid adhesive through the heat-conducting soft layer and is simultaneously contacted with the cobblestones in a large area, so that the cobblestones are prevented from shifting left and right.

Wherein, the electric sliding sleeve 7019 is connected with the second carrying plate 7020 by a buckle.

The second carrier plate 7020 can be quickly removed by snap-fit connection and the finished cobblestone 'brick' can then be removed.

Wherein, a rectangular slot is arranged above the second carrier plate 7020.

The movable storage device is used for storing the rectangular grid net, and the rectangular grid net is prevented from moving when cobbles are placed.

It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.

Claims (7)

1. A cobblestone rectangular brick processing device comprises:

a support frame (1), the support frame (1) being for supporting the device;

the first damp-proof base (2), the first damp-proof base (2) is fixedly connected with the supporting frame (1);

the second damp-proof base (3), the second damp-proof base (3) is fixedly connected with the supporting frame (1);

the control screen (4), the control screen (4) is connected with the supporting frame (1);

the method is characterized in that: also includes:

the cobblestone feeding system (5), the cobblestone feeding system (5) is connected with the supporting frame (1);

the grid net feeding and gluing system (6), the grid net feeding and gluing system (6) is connected with the supporting frame (1);

the cobblestone brick processing system (7), the cobblestone brick processing system (7) is connected with the supporting frame (1), and the cobblestone brick processing system (7) is connected with the cobblestone feeding system (5);

cobblestone feeding system (5) includes:

the feeding box (501) is in bolted connection with the supporting frame (1) through nuts;

the righting cabin (502), the righting cabin (502) is fixedly connected with the feeding box (501);

the transmission rod (503), the transmission rod (503) and the righting cabin (502) are connected in a rotating mode;

the limiting arc-shaped block (504), the limiting arc-shaped block (504) is fixedly connected with the transmission rod (503);

the first groove plate (505), the first groove plate (505) is connected with the transmission rod (503) in a sliding way;

the first transmission plate (506), the first transmission plate (506) is in transmission connection with the transmission rod (503);

the second transmission plate (507), the second transmission plate (507) is connected with the first transmission plate (506) in a transmission way;

the first shaft lever (508), the first shaft lever (508) is connected with the cobblestone brick processing system (7) of the grid net feeding and gluing system (6), and the first shaft lever (508) is fixedly connected with the second transmission plate (507);

the first L-shaped connecting plate (509), the first L-shaped connecting plate (509) is fixedly connected with the feeding box (501), and the first L-shaped connecting plate (509) is rotatably connected with the first shaft lever (508);

the first bevel gear (5010), the first bevel gear (5010) is fixedly connected with the first shaft lever (508);

the second bevel gear (5011), the second bevel gear (5011) engages with first bevel gear (5010);

the second shaft lever (5012), the second shaft lever (5012) is connected with the first L-shaped connecting plate (509) in a rotating mode, and the second shaft lever (5012) is fixedly connected with the second bevel gear (5011);

the second slot plate (5013), the second slot plate (5013) is fixedly connected with the first L-shaped connecting plate (509) through a connecting rod;

the first T-shaped sliding blocks (5014) are provided with two groups, and the two groups of the first T-shaped sliding blocks (5014) are in sliding connection with the second slot plate (5013);

the two groups of second T-shaped sliding blocks (5015) are arranged, and the two groups of second T-shaped sliding blocks (5015) are in sliding connection with the second slot plate (5013);

the first push plate (5016), the first push plate (5016) is fixedly connected with the two groups of first T-shaped sliding blocks (5014) in sequence;

the second push plate (5017), the second push plate (5017) is fixedly connected with two groups of second T-shaped sliding blocks (5015) in sequence;

one side of the first spring (5018) is fixedly connected with the first push plate (5016), and the other side of the first spring (5018) is fixedly connected with the second push plate (5017);

one side of the second spring (5019) is fixedly connected with the first push plate (5016), and the other side of the second spring (5019) is fixedly connected with the second push plate (5017);

the bidirectional cam (5020), the bidirectional cam (5020) and the second shaft lever (5012) are fixedly connected;

the conveyor belt component (5021), the conveyor belt component (5021) is fixedly connected with the support frame (1), and the conveyor belt component (5021) is located below the righting cabin (502);

the two groups of limiting baffles (5022) are arranged on the limiting baffles (5022), the two groups of limiting baffles (5022) are respectively positioned on two sides of the conveyor belt assembly (5021), and the two groups of limiting baffles (5022) are fixedly connected with the supporting frame (1);

the first connecting frame (5023), the first connecting frame (5023) is connected with the cobblestone brick processing system (7), and the first connecting frame (5023) is fixedly connected with the supporting frame (1);

the transfer table (5024), the transfer table (5024) is fixedly connected with the first connecting frame (5023);

the grid net feeding and gluing system (6) comprises:

the first motor (601), the first motor (601) is connected with the supporting frame (1);

the first driving wheel (602), the first driving wheel (602) is fixedly connected with the output shaft of the first motor (601);

the second driving wheel (603), the second driving wheel (603) is rotationally connected with the supporting frame (1) through a rotating shaft, and the outer ring surface of the second driving wheel (603) is in transmission connection with the first driving wheel (602) through a belt;

the third bevel gear (604) is in rotary connection with the supporting frame (1) through a rotating shaft, and the third bevel gear (604) synchronously rotates with the second transmission wheel (603) through the rotating shaft;

a fourth bevel gear (605), the fourth bevel gear (605) meshing with the third bevel gear (604);

the first screw rod (606), the first screw rod (606) and the supporting frame (1) are connected in a rotating mode, and the first screw rod (606) is fixedly connected with the fourth bevel gear (605);

the third transmission wheel (607), the third transmission wheel (607) is fixedly connected with the first screw rod (606);

the outer ring surface of the fourth transmission wheel (608) is in transmission connection with the third transmission wheel (607) through a belt;

the second screw rod (609), the second screw rod (609) is rotatably connected with the supporting frame (1), and the second screw rod (609) is fixedly connected with a fourth driving wheel (608);

one side of the transmission frame (6010) is in transmission connection with the first lead screw (606), and the other side of the transmission frame (6010) is in transmission connection with the second lead screw (609);

the first loading plate (6011), the first loading plate (6011) is in bolt connection with the transmission frame (6010) through nuts;

the second connecting plate (6012), the second connecting plate (6012) and the first carrying plate (6011) are fixedly connected;

the first electric sliding block (6013), the first electric sliding block (6013) is fixedly connected with the second connecting plate (6012);

the first electric sliding rod (6014), the first electric sliding rod (6014) and the first electric sliding block (6013) are in sliding connection;

the connecting block (6015), the connecting block (6015) and the first electric slide bar (6014) are fixedly connected;

the glue spreader (6016) is rotationally connected with the connecting block (6015);

the outer ring surface of the fifth driving wheel (6017) is in transmission connection with the second driving wheel (603) through a belt;

the round roller (6018), the round roller (6018) is rotatably connected with the supporting frame (1), and the round roller (6018) is fixedly connected with a fifth driving wheel (6017);

the shifting plate (6019), the shifting plate (6019) is fixedly connected with the round roller (6018);

cobblestone brick system of processing (7) including:

the first electric push rods (701) are arranged in two groups, and the two groups of the first electric push rods (701) are fixedly connected with the supporting frame (1);

the heating plate (702), the heating plate (702) is fixedly connected with two groups of first electric push rods (701) in sequence;

the second motor (703), the second motor (703) is connected with supporting frame (1);

a sixth driving wheel (704), wherein the sixth driving wheel (704) is fixedly connected with an output shaft of the second motor (703);

the eighth transmission wheel (705), the eighth transmission wheel (705) is fixedly connected with the first shaft lever (508), and the outer annular surface of the eighth transmission wheel (705) is in transmission connection with the sixth transmission wheel (704) through a belt;

a ninth driving wheel (706), the ninth driving wheel (706) is fixedly connected with the first shaft lever (508), and the axle center of the ninth driving wheel (706) and the eighth driving wheel (705) synchronously rotate;

a tenth driving wheel (707), wherein the outer annular surface of the tenth driving wheel (707) is in transmission connection with a ninth driving wheel (706) through a belt;

the telescopic rod (708), the telescopic rod (708) is rotatably connected with the supporting frame (1), and the outer surface of the telescopic rod (708) is fixedly connected with the tenth driving wheel (707);

the fifth bevel gear (709), the fifth bevel gear (709) is fixedly connected with the telescopic rod (708);

the second L-shaped connecting plate (7010), the second L-shaped connecting plate (7010) is rotatably connected with the telescopic rod (708);

the second electric push rod (7011), one side of the second electric push rod (7011) is fixedly connected with the supporting frame (1), and the other side of the second electric push rod (7011) is fixedly connected with the second L-shaped connecting plate (7010);

the sixth bevel gear (7012), the sixth bevel gear (7012) is meshed with the fifth bevel gear (709), and the sixth bevel gear (7012) is in rotating connection with the second L-shaped connecting plate (7010) through a rotating shaft;

the third transmission plate (7013) is in rotary connection with the second L-shaped connecting plate (7010) through a rotating shaft, and the third transmission plate (7013) and the sixth bevel gear (7012) synchronously rotate through the rotating shaft;

the fourth transmission plate (7014), the fourth transmission plate (7014) is rotatably connected with the third transmission plate (7013);

the limiting push flat groove plate (7015), the limiting push flat groove plate (7015) is in transmission connection with the fourth transmission plate (7014);

the guide sliding blocks (7016) are arranged in two groups, and the two groups of guide sliding blocks (7016) are fixedly connected to the limiting push flat groove plate (7015);

the linear sliding rail (7017), the linear sliding rail (7017) and the second L-shaped connecting plate (7010) are fixedly connected, and the linear sliding rail (7017) is connected with the two groups of guide sliders (7016) in a sliding manner in sequence;

the second electric sliding rod (7018), the second electric sliding rod (7018) is fixedly connected with the supporting frame (1), and the second electric sliding rod (7018) is positioned below the limiting push flat groove plate (7015);

the electric sliding sleeve (7019) is in sliding connection with the second electric sliding rod (7018);

the second loading plate (7020), the second loading plate (7020) is connected with the electric sliding sleeve (7019);

the rectangular limit frame (7021) is fixedly connected with the first connecting frame (5023).

2. The pebble rectangular brick processing device according to claim 1, wherein: a sliding sleeve is arranged at the joint of the transmission rod (503) and the first groove plate (505).

3. The pebble rectangular brick processing device according to claim 2, wherein: the transfer table (5024) is inclined from the limit baffle (5022) towards the first connecting rack (5023).

4. A pebble rectangular brick processing device according to claim 3, wherein: two sides of the transmission frame (6010) are provided with a screw rod transmission sleeve.

5. The pebble rectangular brick processing device according to claim 4, wherein: a heat conducting soft layer is arranged below the heating plate (702).

6. The pebble rectangular brick processing device according to claim 5, wherein: the electric sliding sleeve (7019) is connected with the second carrying plate (7020) through a buckle.

7. The pebble rectangular brick processing device according to claim 6, wherein: a rectangular slot is arranged above the second carrying plate (7020).

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