CN114735479B - Stacking production line - Google Patents

Abstract

The invention relates to a stacking production line, which comprises a brick pushing and hole reserving system, a dry brick conveying line, a pallet bin, a stacker and a plate-type conveyor, wherein the brick pushing and hole reserving system comprises a first brick pushing machine, a lifting machine, a second brick pushing machine, a third brick pushing machine and a brick separating machine, the brick pushing direction of the first brick pushing machine points to the second brick pushing machine, the pushing direction of the second brick pushing machine points to the third brick pushing machine, conveying belt channels are arranged on the lower sides of the first brick pushing machine and the second brick pushing machine, the first brick pushing machine is provided with lifting channels communicated with the conveying belt channels, the brick separating machine is positioned at the tail end of the third brick pushing machine, the dry brick conveying line passes through the conveying belt channels, the lifting machine is lower than the dry brick conveying line when in a descending position, the pallet bin is connected with the input end of the plate-type conveyor, a conveying line is provided with a conveying line position, the plate-type conveyor is provided with a stacking position, the brick separating machine is provided with a brick stacking position, the stacker spans the conveying line, a stacking position and a brick pushing and a hole stacking position is convenient to switch between hole reserving and hole stacking.

Description

Stacking production line

Technical Field

The invention relates to the technical field of brickwork stacking, in particular to a stacking production line.

Background

The full-automatic block forming production line is a production line capable of producing various bricks, and the bricks are piled into a brick pile, packed and then transferred for later transportation and delivery of finished bricks.

Because of the bricks produced by equipment of different models, the sizes of the folded veneers are inconsistent, and the subsequent loading is affected. It is therefore necessary to push the single tiles together by means of a tile pushing device to make up a size more suitable for shipment. However, conventional brick pushing machines only have a piecing together function, which requires stacking the bricks on a pallet, and then forking the pallet and the stacks thereon by a forklift. In this way, a fixed cost of one pallet per stack of bricks is incurred.

In order to cancel the pallet, a forklift hole must be left at the time of stacking bricks, which requires the brick pushing equipment to have a hole-leaving function.

The online hole reserving stacking line matched with the full-automatic block forming production line on the market at present is poor in flexibility, and convenient switching between hole reserving stacking and non-hole reserving stacking cannot be realized.

Disclosure of Invention

In order to overcome the technical defects in the prior art, the invention provides a stacking production line, and the switching of hole reserving stacking and hole non-reserving stacking is convenient.

The technical scheme adopted by the invention is as follows:

The stacking production line comprises a brick pushing hole reserving system, a dry brick conveying line, a pallet bin, a stacker and a plate type conveyor brick pushing hole reserving system, wherein the brick pushing hole reserving system comprises a first brick pushing machine, a lifting machine, a second brick pushing machine, a third brick pushing machine and a brick dividing machine, the brick pushing direction of the first brick pushing machine points to the second brick pushing machine, the pushing direction of the second brick pushing machine points to the third brick pushing machine, conveying belt channels are arranged on the lower sides of the first brick pushing machine and the second brick pushing machine, the first brick pushing machine is provided with lifting channels communicated with the conveying belt channels, the brick dividing machine is located at the tail end of the third brick pushing machine, the lifting machine is provided with a lifting position and a descending position, the lifting machine is located in the conveying belt channels when located at the descending position, the dry brick conveying line penetrates through the conveying belt channels, the lifting machine is lower than the dry brick conveying line, the pallet bin is connected with the input end of the plate type conveyor, the dry brick pushing conveying line is provided with a plate type conveyor, the stacking position is provided with a stacking position and a stacking position, and the stacking position is provided with bricks and a stacking position crossing position.

Preferably, the second brick pushing machine comprises a second brick pushing frame, a second brick pushing device, a first transition brick blocking device and a transition brick dividing device, wherein the second brick pushing device reciprocates along the upper side of the second brick pushing frame, the transition brick dividing device is arranged on the second brick pushing frame, the transition brick dividing device reciprocates along the second brick pushing frame, the conveying direction of the transition brick dividing device is consistent with that of the first brick pushing machine, the conveying direction of the first brick pushing machine points to the transition brick dividing device, the first transition brick blocking device is arranged on the second brick pushing frame, the first transition brick blocking device is positioned on one side, far away from the first brick pushing machine, of the transition brick dividing device, and the pushing direction of the second brick pushing device points to the third brick pushing machine.

Preferably, the first brick pushing machine comprises a first brick pushing frame, a first brick pushing device and a transition wear-resisting plate, the first brick pushing device reciprocates along the upper side of the first brick pushing frame, the transition wear-resisting plate is arranged on the first brick pushing frame, transition saw-tooth lines matched with the transition brick dividing device are arranged on the transition wear-resisting plate, the lifting position of the lifting machine is equal to the transition wear-resisting plate in height, and the pushing direction of the first brick pushing device points to the transition brick dividing device.

Preferably, the third brick pushing machine comprises a third brick pushing frame, a third brick pushing device, a second transition brick blocking device and a rotating device, wherein the third brick pushing device reciprocates along the upper side of the third brick pushing frame, the rotating device is arranged on the third brick pushing frame and can rotate ninety degrees, the conveying direction of the second brick pushing machine is directed to the rotating device, the second transition brick blocking device is arranged on the third brick pushing frame, the second transition brick blocking device is positioned on one side, far away from the second brick pushing machine, of the rotating device, and the pushing direction of the third brick pushing device is directed to the brick dividing machine.

Preferably, the lifter comprises a lifting frame, a lifting power device and two lifting claw devices, wherein the lifting frame is arranged on the first brick pushing machine, the lifting power device is arranged on the lifting frame and comprises two synchronous lifting ends, each lifting claw device is arranged on the corresponding synchronous lifting end, the lifting claw devices are provided with lifting positions and descending positions, and the lifting claw devices move up and down along the lifting channel.

Preferably, the brick separating machine comprises a brick separating frame, a brick separating transition device, a brick separating device and a double-stroke brick blocking device, wherein the brick separating device is slidable and divided into three brick separating units which can be mutually far away, the brick separating transition device is arranged on the brick separating frame and is positioned between the brick separating device and the third brick pushing machine, the double-stroke brick blocking device is arranged on the brick separating device and is positioned on one side of the brick separating device far away from the brick separating transition device, the double-stroke brick blocking device is provided with a short-stroke state and a long-stroke state, and the double-stroke brick blocking device is positioned in the short-stroke state and is far away from the brick separating transition device than in the long-stroke state.

Preferably, the brick separating and transferring device comprises a brick separating and transferring bottom plate, two brick feeding guide assemblies and a brick pressing assembly, wherein the brick separating and transferring bottom plate is arranged on a brick separating frame, the two brick feeding guide assemblies are arranged on the brick separating frame, a brick guiding channel is formed between the two brick feeding guide assemblies, and the brick pressing assembly is arranged on the brick separating frame and is positioned on the upper side of the tail end of the brick separating and transferring bottom plate.

Preferably, the brick separating device comprises a brick separating cylinder and a stacking brick separating trolley, the stacking brick separating trolley is slidably arranged on a brick separating frame, the fixed end of the brick separating cylinder is arranged on the brick separating frame, the movable end of the brick separating cylinder is arranged on the stacking brick separating trolley, and the stacking brick separating trolley comprises three brick separating units which can be mutually far away.

Preferably, the stacking split trolley further comprises a split movable frame, the three split units are a middle split unit and two movable split units, the split movable frame slides along the split movable frame, the fixed end of the split air cylinder is arranged on the split movable frame, the movable end of the split air cylinder is arranged on the split movable frame, the top of the split movable frame is horizontally and fixedly provided with a plurality of split sliding rails which are parallel to each other, the middle split unit is fixedly arranged on the split movable frame, two middle clamping components are symmetrically arranged on two sides of the middle split unit along the sliding direction of the split movable frame, and the clamping positions of the middle clamping components are positioned on the upper side of the middle split unit; the two movable brick separating units are respectively and slidably arranged on brick separating slide rails on two sides of the middle brick separating unit, the double-stroke brick blocking device is positioned on the movable brick separating unit on the output side of the brick pushing direction, two movable brick clamping assemblies are symmetrically arranged on two sides of the two movable brick separating units along the sliding direction of the brick separating movable frame, and the clamping positions of the movable brick clamping assemblies are positioned on the upper sides of the corresponding middle brick separating units.

Preferably, the double-stroke brick blocking device comprises a brick blocking fixing seat, a baffle cylinder, a brick blocking rolling plate assembly, a limiting assembly and a clamping control assembly, wherein the limiting assembly comprises a short-stroke limiting end and a long-stroke limiting end, a selection hole is formed in the brick blocking fixing seat, the limiting assembly is fixedly arranged on the brick blocking rolling plate assembly, the selection hole can allow the short-stroke limiting end to pass through but not allow the long-stroke limiting end to pass through, the brick blocking fixing seat is fixedly arranged on a brick separating device, the baffle cylinder is arranged on the brick blocking fixing seat, the output end of the baffle cylinder is arranged on the brick blocking rolling plate assembly, the clamping control assembly is arranged on the baffle fixing seat, the clamping control assembly is provided with a clamping ascending position and a clamping descending position, and the clamping control assembly is positioned at the clamping ascending position and blocks the short-stroke limiting end.

The beneficial effects of the invention are as follows:

The brick pushing direction of the first brick pushing machine points to the second brick pushing machine, the pushing direction of the second brick pushing machine points to the third brick pushing machine, a conveying belt channel is arranged on the lower sides of the first brick pushing machine and the second brick pushing machine, a lifting channel communicated with the conveying belt channel is arranged on the first brick pushing machine, the brick dividing machine is located at the tail end of the third brick pushing machine, the lifting machine is provided with a lifting position and a descending position, the lifting machine is located at the brick pushing height of the first brick pushing machine when in the lifting position, the lifting machine is located in the conveying belt channel when in the descending position, the conveying belt channel is arranged on the lower sides of the first brick pushing machine and the second brick pushing machine, the purpose is to lift the first brick pushing machine to the second brick pushing machine by the lifting machine, the first brick pushing machine eliminates gaps between bricks in the second brick pushing machine and the brick pushing direction, the second brick pushing machine pushes the whole brick pushing machine to the third brick pushing machine, the second brick pushing machine is not distributed to the brick stacking machine in the brick pushing machine, the brick pushing machine is not distributed to the brick stacking machine, and the brick stacking machine can be directly stacked in the brick stacking machine, and the brick stacking machine is not distributed to the brick stacking machine, and the brick stacking machine is not distributed in the whole brick pushing direction.

The dry brick conveying line passes through the conveying belt channel, the lifting machine is lower than the dry brick conveying line when in the descending position, the lower sides of bricks and supporting plates on the dry brick conveying line are hooked on the supporting plates when in the descending position, then the lifting machine is lifted to be in the lifting position, the pallet bin is connected with the input end of the plate conveyor to provide pallets, the dry brick conveying line is provided with a conveying line stacking position, the plate conveyor is provided with a stacking position, the brick separating machine is provided with a brick pushing stacking position, and the stacker spans the conveying line stacking position, the stacking position and the brick pushing stacking position. For the whole layer of brickwork that needs to leave the hole, the whole layer of brickwork promotes through the lifting machine, the whole layer of brickwork is pushed away the pushing of brick machine through first pushing away the brick machine in proper order, the second pushes away the promotion of brick machine and third pushing away the brick machine and then carry to dividing the brick machine, the stacker crane will divide the whole layer of brickwork on the brick pile up neatly position of pushing away the brick and press from both sides and get to the stack position stack, to the whole layer of brickwork that does not need to leave the hole on the dry brick conveying line carry along the conveyer belt passageway, carry the whole layer of brickwork to the conveyer belt pile up neatly position from first stacker crane bottom in proper order, the conveyer belt passageway of lifting machine bottom and second pushing away brick machine bottom, get the stack position stack with whole layer of brickwork clamp again by the stacker crane, and then realize dividing the brick and not dividing the convenient switching of brick, whether be the hole or not left the hole all can pile up on a production line, need not to set up two pile up lines just can realize the pile up with leaving the hole, greatly reduced manufacturing cost.

Drawings

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

Fig. 2 is a schematic diagram of a brick pushing and hole reserving system structure.

Fig. 3 is an enlarged schematic view of fig. 2 at a.

Fig. 4 is an enlarged schematic view at B in fig. 2.

Fig. 5 is an enlarged schematic view at C in fig. 2.

Fig. 6 is a schematic top view of a brick pushing and hole reserving system structure.

Fig. 7 is a schematic diagram of a front view of a brick pushing and hole reserving system.

Fig. 8 is a schematic side view of a brick pushing and hole reserving system structure.

Fig. 9 is a schematic structural view of a brick separating machine.

Fig. 10 is an enlarged schematic view of fig. 9 at E.

Fig. 11 is an enlarged schematic view at F in fig. 9.

Fig. 12 is a schematic side view of a split brick.

FIG. 13 is a schematic view of a double-stroke brick blocking device.

Reference numerals illustrate:

1. A first brick pushing machine; 11. a conveyor belt channel; 12. a lifting channel; 13. a first brick pushing frame; 14. a first brick pushing device; 15. a transitional wear-resistant plate;

2. a hoist; 21. a lifting frame; 22. lifting the power device; 23. lifting claw means;

3. A second brick pushing machine; 31. a second brick pushing frame; 32. a second brick pushing device; 33. a first transition brick blocking device; 34. a transition brick separating device;

4. a third brick pushing machine; 41. a third brick pushing frame; 42. a third brick pushing device; 43. a second transition brick blocking device; 44. a rotating device;

5. Brick separating machine;

51. A brick separating frame;

52. A brick separating transition device; 521. a brick-dividing transition bottom plate; 522. a brick feeding guide assembly; 5221. brick feeding guide seat; 5222. a brick feeding guide screw; 5223. brick feeding guide plate; 523. a brick pressing assembly; 5231. a brick pressing cylinder; 5232. a support beam; 5233. a guide post; 5234. a brick pressing frame;

53. Brick separating device; 531. brick separating air cylinders; 532. stacking and brick separating trolley; 5321. a brick separating movable frame; 3222. a middle brick dividing unit; 53221. brick separating slide rails; 5323. moving the brick separating unit; 5324. a middle brick clamping assembly; 5325. moving the brick clamping assembly;

54. A double-stroke brick blocking device; 541. a brick retaining base; 5411. selecting a hole; 542. a baffle cylinder; 543. a brick-blocking rolling plate assembly; 5431. a brick baffle plate; 5432. a roller mounting seat; 5433. a rolling wheel; 5434. tightly pushing the screw; 544. a limit component; 5441. adjusting a screw; 5442. a short-stroke limiting plate; 5443. a long-stroke limiting plate; 545. the clamping control assembly; 5451. brick blocking limiting clamping plates; 5452. a brick blocking limiting cylinder;

55. pushing the brick stacking position;

6. a dry brick conveying line; 61. conveying line stacking positions;

7. A pallet bin;

8. A stacker;

9. A plate conveyor; 91. and (5) stacking.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

As shown in fig. 1-13, the present embodiment provides a stacking production line, which comprises a brick pushing and hole reserving system, a dry brick conveying line 6, a pallet bin 7, a stacker 8 and a plate conveyor 9, wherein the brick pushing and hole reserving system comprises a first brick pushing machine 1, a lifter 2, a second brick pushing machine 3, a third brick pushing machine 4 and a brick separating machine 5, the brick pushing direction of the first brick pushing machine 1 points to the second brick pushing machine 3, the pushing direction of the second brick pushing machine 3 points to the third brick pushing machine 4, a conveyor belt channel 11 is arranged at the lower sides of the first brick pushing machine 1 and the second brick pushing machine 3, a lifting channel 12 communicated with the conveyor belt channel 11 is arranged on the first brick pushing machine 1, the brick separating machine 5 is positioned at the tail end of the third brick pushing machine 4, the lifter 2 has a lifting position and a descending position, the lifter 2 is positioned at the brick pushing height of the first brick pushing machine 1 when the lifter 2 is positioned at the descending position, the lifter 2 is positioned in the conveyor belt channel 11, the conveying belt channels 11 are arranged at the lower sides of the first brick pushing machine 1 and the second brick pushing machine 3, the purpose is that the whole layer of bricks needing to be divided are lifted to the position of the first brick pushing machine 1 by utilizing the lifting machine 2, the bricks are pushed to the second brick pushing machine 3 by the first brick pushing machine 1, gaps among the bricks are eliminated in the brick pushing direction of the second brick pushing machine 3 by the first brick pushing machine 1, the whole layer of bricks are pushed to the third brick pushing machine 4 by the second brick pushing machine 3, gaps among the bricks are eliminated in the pushing direction of the second brick pushing machine 3 by the second brick pushing machine 3, the whole layer of bricks are pushed to the brick dividing machine 5 by the third brick pushing machine 4, the component bricks are completely separated by the brick dividing machine 5, and the whole layer of bricks needing not to be divided are directly conveyed through the conveying belt channels 11 to be piled, so that the convenient switching between the brick dividing and the brick dividing is realized, and the stacking can be carried out on a production line regardless of whether the holes are reserved or not reserved.

The dry brick conveying line 6 passes through the conveying belt channel 11, the lifting machine 2 is lower than the dry brick conveying line 6 when being in the descending position, the lower side of a brick and a supporting plate on the dry brick conveying line 6 hooks the supporting plate when being in the descending position, then the lifting machine 2 is lifted to be in the lifting position, the pallet bin 7 is connected with the input end of the plate conveyor 9 to provide pallets, the conveying line stacking position 61 is arranged on the dry brick conveying line 6, the stacking position 91 is arranged on the plate conveyor 9, the brick pushing stacking position 55 is arranged on the brick separating machine 5, and the stacker 8 spans the conveying line stacking position 61, the stacking position 91 and the brick pushing stacking position 55. For the whole layer of brickwork that needs to be left, the whole layer of brickwork is promoted through lifting machine 2, the whole layer of brickwork is carried to conveying line palletizing position 61 through the promotion of first brick pushing machine 1, second brick pushing machine 3 and third brick pushing machine 4 in proper order and then is carried to dividing brick machine 5, then stacker 8 is with dividing brick machine 5 push up the whole layer of brickwork clamp on the brick pile up neatly position 55 to the stack position 91 stack, for the whole layer of brickwork that does not need to be left, the brickwork carries along conveyer belt passageway 11 on dry brick conveying line 6, carry whole layer of brickwork to conveyer belt pile up neatly position 61 from first stacker 8 bottom, lifting machine 2 bottom and conveyer belt passageway 11 of second brick pushing machine 3 bottom in proper order, and then by stacker 8 with whole layer of brickwork clamp get to stack position 91 stack, and then realize dividing brick and the convenient switching of not dividing brick, whether be left hole or not left hole all can pile up on a production line, need not set up two lines and just can realize pile up with the pile up neatly of leaving hole, greatly reduced manufacturing cost.

Wherein the second brick pushing machine 3 comprises a second brick pushing frame 31, a second brick pushing device 32, a first transition blocking device 33 and a transition brick separating device 34, the second brick pushing device 32 reciprocates along the upper side of the second brick pushing frame 31, the second brick pushing device 32 comprises a second brick pushing walking frame, a second swinging cylinder, a second brick pushing swing arm and a second push rod, the power of the second brick pushing walking frame reciprocating along the second brick pushing frame 31 comes from a motor, the second swinging cylinder is arranged on the second brick pushing walking frame, the second brick pushing swing arm is rotatably arranged on the second brick pushing walking frame, the second swinging cylinder drives the second brick pushing swing arm to swing, the second push rod is arranged on the second brick pushing swing arm, when the second brick pushing walking frame retreats, the second swinging cylinder lifts the second brick pushing swing arm, and then avoids the brick when the whole layer of bricks enter the transition brick separating device 34, the second swinging cylinder descends the second brick pushing swing arm, so that the second push rod can push bricks, the transition brick separating device 34 is arranged on the second brick pushing frame 31, the transition brick separating device 34 moves reciprocally along the second brick pushing frame 31, the conveying direction of the transition brick separating device 34 is consistent with that of the first brick pushing machine 1, the second brick pushing device 32 is used for separating the whole layer of bricks pushed by the first brick pushing machine 1 from other bricks on the first brick pushing machine 1, the conveying direction of the first brick pushing machine 1 points to the transition brick separating device 34 to push the whole layer of bricks to the transition brick separating device 34, the first transition brick blocking device 33 is arranged on the second brick pushing frame 31, the first transition brick blocking device 33 is positioned on one side of the transition brick separating device 34 far away from the first brick pushing machine 1, the second transition brick blocking device 43 is used for controlling the quantity of bricks pushed by the first brick pushing machine 1 to the transition brick separating device 34, the pushing direction of the second brick pushing device 32 is directed to the third brick pushing machine 4.

The first brick pushing machine 1 comprises a first brick pushing frame 13, a first brick pushing device 14 and a transition wear-resisting plate 15, the first brick pushing device 14 reciprocates along the upper side of the first brick pushing frame 13, the transition wear-resisting plate 15 is arranged on the first brick pushing frame 13, transition saw-tooth grains matched with the transition brick dividing device 34 are arranged on the transition wear-resisting plate 15, the lifting position of the lifting machine 2 is equal to the transition wear-resisting plate 15, the pushing direction of the first brick pushing device 14 points to the transition brick dividing device 34, the first brick pushing device 14 comprises a first brick pushing walking frame, a first swinging cylinder, a first brick pushing swing arm and a first push rod, the first brick pushing walking frame is driven by a motor along the power of the reciprocating motion of the first brick pushing frame 13, the first swinging cylinder is arranged on the first brick pushing walking frame, the first swinging cylinder drives the first brick pushing swing arm to swing, the first push rod is arranged on the first brick pushing walking frame, when the first brick pushing walking frame is retracted, the first swinging arm can lift the first brick pushing swing arm to enable the first brick to be lifted by the first swing arm to be pushed down, and then the brick can be lifted by the first swing arm, and the brick can be pushed down by the first brick pushing arm.

The third brick pushing machine 4 comprises a third brick pushing frame 41, a third brick pushing device 42, a second transition blocking device 43 and a rotating device 44, the third brick pushing device 42 reciprocates along the upper side of the third brick pushing frame 41, the third brick pushing device 42 comprises a third brick pushing walking frame, a third swinging cylinder, a third brick pushing swing arm and a third push rod, the third brick pushing walking frame is driven by a motor along the power of the reciprocating motion of the third brick pushing frame 41, the third swinging cylinder is arranged on the third brick pushing walking frame, the third brick pushing swing arm is rotatably arranged on the third brick pushing walking frame, the third swinging cylinder drives the third brick pushing swing arm to swing, the third push rod is arranged on the third brick pushing swing arm, when the third brick pushing walking frame retreats, the third swinging cylinder drops the third brick pushing device, and further enables the third push rod to push the rotating device 44 to be arranged on the rotating disc, the rotating device is arranged on the rotating disc frame, the rotating device is arranged on the rotating disc, the rotating disc is in a direction of the rotating disc is far away from the rotating disc, the rotating device is arranged on one side of the rotating disc, and is far away from the rotating disc, and is far from the rotating disc, and is positioned on the rotating disc, and is in the direction of the rotating device, and is far away from the rotating disc, and is in the 3, and is far from the rotating disc, and is far from the rotating device, and is in the direction of the rotating disc, and is in the direction of the rotating device, and has the direction of the rotating device and has the direction of the rotating device and has the rotating brick pushing device and has the functions of the third brick pushing device and has the brick pushing 3.

The lifting machine 2 comprises a lifting frame 21, a lifting power device 22 and two lifting claw devices 23, the lifting frame 21 is arranged on the first brick pushing machine 1, the lifting power device 22 is arranged on the lifting frame 21, the lifting power device 22 comprises two synchronous lifting ends, the lifting power device 22 comprises a lifting motor, a lifting synchronous shaft and two lifting frames, each lifting frame slides up and down along the lifting frame 21, two sides of the lifting synchronous shaft are respectively in transmission connection with the corresponding lifting frames through chains, the two lifting frames form synchronous lifting ends, each lifting claw device 23 is arranged on the corresponding synchronous lifting ends, the lifting claw devices 23 are provided with lifting positions and descending positions, the lifting claw devices 23 move up and down along a lifting channel 12, as the dry brick conveying line 6 passes through a conveying belt channel 11, the lifting claw devices 23 are firstly arranged on a supporting plate and a whole layer of brick laying lower side on the supporting plate on the dry brick conveying line 6, then the supporting plate and the whole layer of brick laying are lifted to the same height as the transitional wear plate 15, the first brick pushing machine 1 is pushed onto the second brick pushing machine 3, the lifting machine 2 is in the presence of the lifting machine, and the lifting claw devices can be used for directly conveying bricks along the first brick pushing machine and the second brick pushing machine 4 and the stacking machine, the third brick stacking machine and the brick stacking machine 4 can be sequentially conveyed by the first brick pushing machine and the third brick pushing machine 4.

The brick separating machine 5 comprises a brick separating frame 51, a brick separating transition device 52, a brick separating device 53 and a double-stroke blocking device 54, wherein the brick separating device 53 is slidable and is divided into three brick separating units which can be mutually far away, the brick separating units are used for separating the whole pushed layer of bricks into three parts, the brick separating is further realized, the brick separating transition device 52 is arranged on the brick separating frame 51, the brick separating transition device 52 is positioned between the brick separating device 53 and the third brick pushing machine 4, the brick separating units are transversely moved in the brick separating process of each wheel, if the brick separating unit close to one side of the third brick pushing machine 4 is directly matched with the third brick pushing machine 4, the third brick pushing machine 4 and the brick separating units are respectively in two independent devices, the brick separating transition device 52 is arranged on the brick separating frame 51, the brick separating units are matched with the brick separating transition device 52 belonging to the same device in the transverse direction, the device is greatly facilitated, the brick separating transition device is further conveniently arranged on one side of the brick separating device from the brick pushing machine 4, the brick separating device is more conveniently adjusted to be in a short-stroke state than the brick separating device 54, and is more conveniently and conveniently in a two-stroke state than the brick separating device 54 is in the two-stroke state, and the two-stroke state is more conveniently adjusted to be in a short-stage state than the two-stage brick separating device is in the long-stage.

The brick dividing transition device 52 comprises a brick dividing transition bottom plate 521, two brick feeding guide components 522 and a brick pressing component 523, wherein the brick dividing transition bottom plate 521 is installed on a brick dividing frame 51, the two brick feeding guide components 522 are installed on the brick dividing frame 51, a brick guiding channel is formed between the two brick feeding guide components 522, the brick pressing component 523 is installed on the brick dividing frame 51 and is positioned on the upper side of the tail end of the brick dividing transition bottom plate 521, the third brick pushing machine 4 pushes the whole layer of bricks to enter the brick guiding channel first, the brick guiding channel shapes the bricks, gaps are prevented from occurring in brick laying, the brick dividing device 53 is attached to the side edge of the brick dividing transition bottom plate 521, the bricks enter the brick dividing device 53 through the brick dividing transition bottom plate 521, the brick pressing component 523 presses the last row of bricks on the brick dividing transition bottom plate 521, then the brick dividing device 53 is far away from the brick dividing transition bottom plate 521, and the brick pressing component 523 prevents the bricks from falling from the brick dividing device 53 and the brick dividing transition bottom plate 521 when the brick dividing device 53 is separated from the brick dividing transition bottom plate 521.

Wherein, advance brick direction subassembly 522 all includes a plurality of brick guide holders 5221 that advance, a plurality of brick guide screw 5222 and advance brick deflector 5223, each advance brick guide holder 5221 and adorn admittedly on dividing brick frame 51, each advance brick guide screw 5222 and adorn admittedly on advancing brick deflector 5223, each advance brick guide screw 5222 and adorn admittedly on corresponding advance brick guide holder 5221 through the lead brick fixation nut, adjust the mutual distance between two advance brick deflector 5223 through adjusting the position of lead brick fixation nut on advancing brick guide screw 5222 in order to adapt to the pile up neatly demand that different sizes are laid bricks or different pile up in the pile up of putting bricks, each advance brick deflector 5223 is parallel to each other and advance the coming brick side of brick deflector 5223 and form the splayed opening.

The brick pressing assembly 523 comprises a brick pressing cylinder 5231, a supporting beam 5232, guide columns 5233 and a brick pressing frame 5234, wherein the guide columns 5233 penetrate through the supporting beam 5232 to slide up and down, the guide columns 5233 are fixedly arranged on the brick pressing frame 5234, the guide columns 5233 are used for guiding lifting of the brick pressing frame 5234, the supporting beam 5232 stretches across the upper side arranged on the brick dividing frame 51 and the supporting beam 5232 is positioned at the tail end of the brick dividing transition bottom plate 521, the brick pressing cylinder 5231 is arranged on the supporting beam 5232, the output end of the brick pressing cylinder 5231 is arranged on the brick pressing frame 5234, and the brick pressing cylinder 5231 drives the brick pressing frame 5234 to press the brick on the lower side, so that the brick is prevented from being pulled and dropped from between the brick dividing device 53 and the brick dividing transition bottom plate 521 when the brick dividing device 53 is separated from the brick dividing transition bottom plate 521.

The brick separating device 53 comprises a brick separating cylinder 531 and a stacking brick separating trolley 532, the stacking brick separating trolley 532 is slidably mounted on the brick separating frame 51, the fixed end of the brick separating cylinder 531 is mounted on the brick separating frame 51, the movable end of the brick separating cylinder 531 is mounted on the stacking brick separating trolley 532, the brick separating cylinder 531 is used for driving the stacking brick separating trolley 532 to be attached to or away from the brick separating transition bottom plate 521, and the stacking brick separating trolley 532 comprises three brick separating units which can be mutually separated.

Specifically, the stacking split trolley 532 further includes a split movable frame 5321, the three split units are a middle split unit 3222 and two movable split units 5323, the split movable frame 5321 slides along the split frame 51, a fixed end of a split air cylinder 531 is mounted on the split frame 51, a movable end of the split air cylinder is mounted on the split movable frame 5321, the split air cylinder 531 is used for driving the split movable frame 5321 to move, a plurality of split sliding rails 53221 parallel to each other are horizontally fixed on the top of the split movable frame 5321, the middle split unit 3222 is fixedly mounted on the split movable frame 5321, two middle clamping components 5324 are symmetrically arranged on the two sides of the middle split unit 3222 along the sliding direction of the split movable frame 5321, and the middle clamping components 5324 are positioned on the upper side of the middle split unit 3222 in a clamping manner, and the middle clamping components 5324 are used for clamping bricks on the middle split unit 3222; the two movable brick dividing units 5323 are respectively and slidably arranged on brick dividing sliding rails 53221 on two sides of the middle brick dividing unit 3222, bricks on the two brick dividing units are far away from the middle brick dividing unit 3222 under the driving of the movable brick dividing unit 5323, further brick dividing is realized, the double-stroke blocking device 54 is positioned on the movable brick dividing unit 5323 on the output side of the brick pushing direction, two movable brick clamping assemblies 5325 are symmetrically arranged on two sides of the two movable brick dividing units 5323 along the sliding direction of the movable brick dividing frame 5321, clamping positions of the movable brick clamping assemblies 5325 are positioned on the upper sides of the corresponding middle brick dividing units 3222, and the movable brick clamping assemblies 5325 are used for preventing the bricks on the corresponding movable brick dividing units 5323 from falling or dislocating.

The double-stroke brick blocking device 54 comprises a brick blocking fixed seat 541, a baffle cylinder 542, a brick blocking rolling plate assembly 543, a limiting assembly 544 and a clamping control assembly 545, wherein the limiting assembly 544 comprises a short-stroke limiting end and a long-stroke limiting end, a selection hole 5411 is formed in the brick blocking fixed seat 541, the limiting assembly 544 is fixedly arranged on the brick blocking rolling plate assembly 543, the selection hole 5411 can allow the short-stroke limiting end to pass through but not allow the long-stroke limiting end to pass through, the brick blocking fixed seat 541 is fixedly arranged on the brick dividing device 53, the baffle cylinder 542 is arranged on the brick blocking fixed seat 541, the output end of the baffle cylinder 542 is arranged on the brick blocking rolling plate assembly 543, the brick blocking rolling plate assembly 543 rolls on each brick dividing unit of the brick dividing device 53, the baffle cylinder 542 is used for pushing the brick blocking rolling plate assembly 543, the clamping control assembly 545 is arranged on the baffle fixed seat, and the clamping control assembly 545 is provided with a clamping ascending position and a clamping descending position, and the short-stroke limiting end is blocked when the clamping control assembly 545 is in the clamping ascending position.

The double-stroke brick blocking device 54 has the function that when the double-stroke brick blocking device 54 is required to be in a short stroke state, the clamping control assembly 545 ascends and is in a clamping ascending position, and when the baffle cylinder 542 pushes the brick blocking rolling plate assembly 543 to move, the clamping control assembly 545 is in the clamping ascending position and blocks a short stroke limiting end, so that the double-stroke brick blocking device 54 is in the short stroke state; when the double-stroke brick blocking device 54 is required to be in a long-stroke state, the clamping control assembly 545 descends to be in a clamping descending position, and when the baffle cylinder 542 pushes the brick blocking rolling plate assembly 543 to move, the clamping control assembly 545 is in the clamping descending position and cannot block the short-stroke limiting end, the baffle cylinder 542 continues to push the brick blocking rolling plate assembly 543, so that the short-stroke limiting end passes through the selection hole 5411, but the long-stroke limiting end cannot pass through the selection hole 5411, and the double-stroke brick blocking device 54 is in the long-stroke state.

It is noted that the stacking size of the brickwork on the split unit is smaller when the double-stroke blocking device 54 is in the short-stroke state, whereas the stacking size of the brickwork on the split unit is larger when the double-stroke blocking device 54 is in the long-stroke state.

The brick rolling plate component 543 comprises a brick baffle 5431, a roller mounting seat 5432 and a rolling wheel 5433, wherein the roller mounting seat 5432 is mounted on the brick baffle 5431 through a long hole, the rolling wheel 5433 is rotatably mounted on the roller mounting seat 5432, the brick baffle 5431 is fixedly mounted at the output end of the baffle cylinder 542, the baffle cylinder 542 pushes the brick baffle 5431 to move on each brick dividing unit, the long hole on the roller mounting seat 5432 is used for adjusting the height of the roller mounting seat 5432 so as to eliminate the influence of the gravity of the brick baffle 5431 on the output end of the baffle cylinder 542, the service life of the baffle cylinder 542 is prolonged, the brick baffle 5431 is prevented from being guided by using a guide post mode in a mode of bearing the brick baffle 5431 by the rolling wheel 5433, and the guide post is difficult to debug because the cost of the guide post is high, so that the brick baffle 5431 is suspended by using the guide post, the cost is reduced by using the rolling wheel 5433, and the brick baffle 5431 is more reliable in bearing.

The brick rolling plate assembly 543 further comprises a jacking screw 5434, the jacking screw 5434 is connected with the brick plate 5431 through a thread pair, the jacking screw 5434 jacks the upper side of the roller mounting seat 5432, and the jacking screw 5434 prevents the roller mounting seat 5432 from loosening, so that the brick plate 5431 is reliably supported by the rolling wheel 5433.

The limiting component 544 comprises an adjusting screw 5441, a short-stroke limiting plate 5442 and a long-stroke limiting plate 5443, wherein the short-stroke limiting plate 5442 is fixedly arranged on the adjusting screw 5441 through a nut so as to form a short-stroke limiting end, the position of the short-stroke limiting plate 5442 is convenient to adjust, the long-stroke limiting plate 5443 is fixedly arranged on the adjusting screw 5441 through the nut so as to form a long-stroke limiting end, the position of the long-stroke limiting plate 5443 is convenient to adjust, and the adjusting screw 5441 is arranged on the brick baffle plate 5431 through a thread pair.

The clamping control assembly 545 comprises a blocking limiting clamping plate 5451 and a blocking limiting cylinder 5452, the blocking limiting clamping plate 5451 is provided with a horizontal section and a vertical section which are integrally arranged, the blocking limiting cylinder 5452 is arranged on the horizontal section, the output end of the blocking limiting cylinder 5452 penetrates through the horizontal section to be arranged on the blocking fixing seat 541, the blocking limiting cylinder 5452 is provided with a clamping ascending position and a clamping descending position, the vertical section blocks a short stroke limiting end when in clamping ascending position, the top of the vertical section is provided with a V-shaped notch for clamping the short stroke limiting end, and the blocking limiting cylinder 5452 drives the vertical section to ascend and descend so as to switch between the clamping ascending position and the clamping descending position.

While the basic principles and main features of the invention and advantages of the invention have been shown and described, it will be understood by those skilled in the art that the present invention is not limited by the foregoing embodiments, which are described in the foregoing description merely illustrate the principles of the invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents.

Claims (8)

1. The stacking production line is characterized by comprising a brick pushing hole reserving system, a dry brick conveying line, a pallet bin, a stacker and a plate type conveyor brick pushing hole reserving system, wherein the brick pushing hole reserving system comprises a first brick pushing machine, a lifting machine, a second brick pushing machine, a third brick pushing machine and a brick separating machine, the brick pushing direction of the first brick pushing machine points to the second brick pushing machine, the pushing direction of the second brick pushing machine points to the third brick pushing machine, conveying belt channels are arranged on the lower sides of the first brick pushing machine and the second brick pushing machine, the first brick pushing machine is provided with lifting channels communicated with the conveying belt channels, the brick separating machine is positioned at the tail end of the third brick pushing machine, the lifting machine is provided with a lifting position and a descending position, the lifting machine is positioned at the brick pushing height of the first brick pushing machine when being positioned at the lifting position, the lifting machine is positioned in the conveying belt channels when being positioned at the descending position, the dry brick conveying line penetrates through the conveying belt channels, the lifting machine is lower than a dry brick conveying line when in a descending position, the pallet bin is connected with the input end of the plate-type conveyor, a conveying line stacking position is arranged on the dry brick conveying line, a stacking position is arranged on the plate-type conveyor, a brick pushing stacking position is arranged on the brick dividing machine, the stacking machine spans the conveying line stacking position, the stacking position and the brick pushing stacking position, the brick dividing machine comprises a brick dividing frame, a brick dividing transition device, a brick dividing device and a double-stroke brick blocking device, the brick dividing device can slide and is divided into three mutually-far-away brick dividing units, the brick dividing transition device is arranged on the brick dividing frame and is positioned between the brick dividing device and a third brick pushing machine, the double-stroke brick blocking device is arranged on the brick dividing device and is positioned on one side of the brick dividing device far away from the brick dividing transition device, the double-stroke brick blocking device has a short-stroke state and a long-stroke state, the double-stroke brick blocking device is more far away from the brick dividing transition device when being in a short stroke state than in a long stroke state, the double-stroke brick blocking device comprises a brick blocking fixing seat, a baffle cylinder, a brick blocking rolling plate assembly, a limiting assembly and a clamping control assembly, the limiting assembly comprises a short stroke limiting end and a long stroke limiting end, a selection hole is formed in the brick blocking fixing seat, the limiting assembly is fixedly arranged on the brick blocking rolling plate assembly, the selection hole can supply the short stroke limiting end to pass through but can not supply the long stroke limiting end to pass through, the brick blocking fixing seat is fixedly arranged on the brick dividing device, the baffle cylinder is arranged on the brick blocking fixing seat, the output end of the baffle cylinder is arranged on the brick blocking rolling plate assembly, the clamping control assembly is arranged on the baffle fixing seat and is provided with a clamping ascending position and a clamping descending position, the brick blocking rolling plate assembly comprises a brick blocking plate, a rolling seat and a rolling wheel, the rolling wheel is arranged on the brick rolling plate through a long hole, the rolling plate is arranged on the brick blocking plate, the rolling plate can be arranged on the brick pressing plate through a long stroke adjusting screw, the rolling plate is arranged on the screw rod and the screw rod is further arranged on the screw rod of the adjusting screw rod, the screw rod is further arranged on the brick rolling plate through the adjusting screw rod, and the screw rod is further arranged on the side of the baffle plate.

2. The palletizing production line according to claim 1, wherein the second brick pushing machine comprises a second brick pushing frame, a second brick pushing device, a first transition brick blocking device and a transition brick dividing device, the second brick pushing device reciprocates along the upper side of the second brick pushing frame, the transition brick dividing device is mounted on the second brick pushing frame, the transition brick dividing device reciprocates along the second brick pushing frame and the conveying direction of the transition brick dividing device is consistent with the conveying direction of the first brick pushing machine, the conveying direction of the first brick pushing machine points to the transition brick dividing device, the first transition brick blocking device is mounted on the second brick pushing frame, the first transition brick blocking device is positioned on the side, far away from the first brick pushing machine, of the transition brick dividing device, and the pushing direction of the second brick pushing device points to the third brick pushing machine.

3. The palletizing production line according to claim 1, wherein the first brick pushing machine comprises a first brick pushing frame, a first brick pushing device and a transition wear-resisting plate, the first brick pushing device reciprocates along the upper side of the first brick pushing frame, the transition wear-resisting plate is arranged on the first brick pushing frame, transition saw-tooth lines matched with the transition brick dividing device are arranged on the transition wear-resisting plate, the lifting position of the lifting machine is equal to the transition wear-resisting plate in height, and the pushing direction of the first brick pushing device points to the transition brick dividing device.

4. The palletizing production line according to claim 1, wherein the third brick pushing machine comprises a third brick pushing frame, a third brick pushing device, a second transition brick blocking device and a rotating device, the third brick pushing device reciprocates along the upper side of the third brick pushing frame, the rotating device is arranged on the third brick pushing frame, the rotating device can rotate ninety degrees, the conveying direction of the second brick pushing machine points to the rotating device, the second transition brick blocking device is arranged on the third brick pushing frame, the second transition brick blocking device is positioned on the side, far away from the second brick pushing machine, of the rotating device, and the pushing direction of the third brick pushing device points to the brick dividing machine.

5. A palletising line as claimed in claim 1, wherein the elevator comprises a lifting frame mounted on the first brick pushing machine, a lifting power device mounted on the lifting frame and comprising two synchronised lifting ends, each lifting claw device mounted on a respective synchronised lifting end, the lifting claw devices having a lifting position and a lowering position, the lifting claw devices moving up and down along the lifting path.

6. The palletizing production line according to claim 1, wherein the brick separating and transferring device comprises a brick separating and transferring bottom plate, two brick feeding guiding components and a brick pressing component, the brick separating and transferring bottom plate is arranged on a brick separating frame, the two brick feeding guiding components are arranged on the brick separating frame, a brick guiding channel is formed between the two brick feeding guiding components, the brick pressing component is arranged on the brick separating frame, and the brick pressing component is positioned on the upper side of the tail end of the brick separating and transferring bottom plate.

7. A palletising line as claimed in claim 1, wherein the brick separating means comprises a brick separating cylinder and a palletising brick separating trolley, the palletising brick separating trolley being slidably mounted on a brick separating frame, the fixed end of the brick separating cylinder being mounted on the brick separating frame and the movable end being mounted on the palletising brick separating trolley, the palletising brick separating trolley comprising three mutually remote brick separating units.

8. The stacking production line according to claim 7, wherein the stacking sub-trolley further comprises a sub-brick movable frame, the three sub-brick units are respectively a middle sub-brick unit and two movable sub-brick units, the sub-brick movable frame slides along the sub-brick frame, the fixed end of the sub-brick cylinder is arranged on the sub-brick frame, the movable end of the sub-brick cylinder is arranged on the sub-brick movable frame, the top of the sub-brick movable frame is horizontally fixedly provided with a plurality of sub-brick sliding rails which are parallel to each other, the middle sub-brick units are fixedly arranged on the sub-brick movable frame, two middle brick clamping assemblies are symmetrically arranged on two sides of the middle sub-brick units along the sliding direction of the sub-brick movable frame, and the middle brick clamping assemblies are positioned on the upper side of the middle sub-brick units in a clamping manner; the two movable brick separating units are respectively and slidably arranged on brick separating slide rails on two sides of the middle brick separating unit, the double-stroke brick blocking device is positioned on the movable brick separating unit on the output side of the brick pushing direction, two movable brick clamping assemblies are symmetrically arranged on two sides of the two movable brick separating units along the sliding direction of the brick separating movable frame, and the clamping positions of the movable brick clamping assemblies are positioned on the upper sides of the corresponding middle brick separating units.