CN115432443A - Non-unstacking and stacking machine behind sintering brick kiln - Google Patents

Abstract

The invention relates to the technical field of manufacturing of brick and tile mechanical equipment, in particular to a non-unstacking and stacking machine behind a sintering brick kiln, which comprises two groups of racks, wherein a lifting clamping assembly and an auxiliary clamping assembly are arranged on the surfaces of the racks, the lifting clamping assembly and the auxiliary clamping assembly clamp sintering bricks, a slide rail is arranged on the surface of each rack, a pushing assembly is arranged above the slide rail, a standby compensation piece is arranged on the surface of each rack, the pushing assembly pushes the standby compensation piece to push the sintering bricks needing to be stacked in a whole pile, the sintering bricks are placed on a reinforcing pad group, and the reinforcing pad group is conveyed by a conveying assembly; the beneficial effects are that: the non-unstacking and stacking machine for the sintered bricks in the kiln adopts two groups of racks which are arranged to clamp the sintered bricks and then push and adjust the mechanism for adjusting the clearance between the adjacent sintered bricks, so that the clamping and adjusting structures in the two racks respectively adjust the clearance between the stacked sintered bricks with a single layer number and the stacked sintered bricks with a double layer number, and the stacking efficiency of the sintered bricks after the sintered bricks are discharged from the kiln is improved.

Description

Non-unstacking and stacking machine behind sintered brick kiln

Technical Field

The invention relates to the technical field of manufacturing of brick and tile mechanical equipment, in particular to a non-unstacking and stacking machine after a sintering brick kiln.

Background

And (3) sintering the brick: bricks for building load-bearing and non-load-bearing walls, which are prepared by taking clay, shale, coal gangue or fly ash as raw materials through molding and high-temperature roasting, are collectively called as baked bricks; the main raw materials of the common clay brick are powdered or sandy clay, the main chemical components of the common clay brick are SiO2, al2O3, fe2O3 and crystal water, and a small amount of alkali metal, alkaline earth metal oxide and the like may be contained due to different geological formation conditions. The production process of clay brick mainly includes the steps of taking soil, refining mud, making blank, drying and roasting. Shale, coal gangue, fly ash, etc. may be used as raw materials in addition to clay to manufacture the clay, because their chemical components are similar to clay. However, because they are not as plastic as clay, a certain amount of clay is often added to make bricks to meet the requirement of plasticity during blank making. In addition, the coal gangue and the fly ash in the green brick belong to combustible industrial waste, contain unburned carbon, and are also combusted in the green brick along with the roasting of the brick, so that a large amount of external coal for roasting is saved.

In the prior art, the sintered bricks are widely used, the sintered bricks are stacked into stacks, and regular gaps are formed among the bricks in the stacks; however, after the sintered bricks are pushed out of the sintering kiln, the gaps between adjacent sintered bricks are large, and the brick piles need to be relatively dense in the transportation process, so that potential safety hazards caused by brick damage or falling of the bricks can be reduced in the transportation process; therefore, the invention provides a non-unstacking and stacking machine after a sintering brick kiln, which is used for solving the problems.

Disclosure of Invention

The invention aims to provide a non-unstacking and stacking machine after a sintering brick kiln, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a whole buttress machine of not unstacking behind sintered brick kiln, which comprises two sets of frames, the surface mounting of frame has lift centre gripping subassembly and supplementary centre gripping subassembly, lift centre gripping subassembly and supplementary centre gripping subassembly are to the sintered brick centre gripping, and the surface of frame is provided with the slide rail, the top of slide rail is provided with the top and pushes away the subassembly, and the surface of frame is provided with reserve compensating part, the top pushes away spare compensating part and pushes away the sintered brick that needs whole buttress, the sintered brick puts on strengthening the pad group, strengthen the pad group and be carried by the delivery subassembly, and be provided with between two sets of frames and turn to the adjusting part, turn to the adjusting part and realize that ninety degrees of stacking the sintered brick turn to.

Preferably, the lifting clamping component comprises a first electric push rod and a chain belt frame fixed at the end part of a piston rod of the first electric push rod, a chain inside the chain belt frame is meshed with the meshing buckles on the surface of the lifting clamping plate, the first electric push rod is fixed on the vertical rod of the rack through a pin shaft frame, the chain belt frame is provided with two groups, the lifting clamping plate is located between the two chain belt frames, and the lifting clamping plate is provided with a plurality of lifting clamping plates.

Preferably, supplementary centre gripping subassembly includes guided way and sliding connection at the supplementary backup plate on guided way surface, supplementary backup plate and lift grip block one-to-one, and the top of frame is provided with the hoist and mount unit.

Preferably, the pushing assembly comprises an adjusting frame, a cylinder is mounted on a frame body of the adjusting frame, the end part of a piston rod of the cylinder is fixed on the surface of a push plate, and the push plate corresponds to the lifting clamping plate one to one.

Preferably, the spare compensation piece comprises a placing plate and spare bricks placed on the surface of the placing plate, the placing plate is fixed on the stand columns of the rack, and the placing plate corresponds to the push plates one to one.

Preferably, strengthen the group of pads and include the backing plate and fix the square steel pad at the backing plate top surface, the uninstallation groove has been seted up on the surface of square steel pad, and two curb plates and the roof of square steel pad are run through to the uninstallation groove.

Preferably, the carrying assembly comprises a base rail and a transmission belt group arranged inside the base rail, the base rail is fixed on a bottom cross beam of the rack, and the base rail is provided with two groups.

Preferably, turn to the adjusting part and include the base, set up at the splice groove of base top surface and insert the inside carousel of splice groove, be provided with the top pushing subassembly between base and the carousel and rotate with going up and down, top pushing subassembly with the carousel lifting back, go up and down to rotate the piece and drive the carousel and rotate.

Preferably, the pushing assembly comprises a second mounting groove, a second electric push rod arranged in the second mounting groove and a pulley fixed at the top end of a piston rod of the second electric push rod, and the second mounting groove is formed in the bottom surface of the splicing groove.

Preferably, the lifting rotating piece comprises a first mounting groove, a driving motor fixed inside the first mounting groove and a sleeve sleeved outside the shaft body of the driving motor, the sleeve is fixed on the bottom surface of the turntable, the first mounting groove is arranged on the bottom surface of the splicing groove, a guide groove is formed in the surface of the shaft body of the driving motor, a limit pin is inserted into the guide groove, the limit pin penetrates through a side plate of the sleeve, a plurality of groups of guide grooves are arranged on the arc side wall of the shaft body of the driving motor in a cross shape.

Compared with the prior art, the invention has the beneficial effects that: the invention has reasonable structure and strong functionality, and has the following advantages:

1. the non-unstacking and stacking machine for the baked bricks after the kiln is fired adopts two groups of racks which are both provided with mechanisms for clamping the baked bricks and pushing and adjusting the gaps between the adjacent baked bricks, so that the clamping and adjusting structures in the two racks respectively adjust the gaps between the stacked baked bricks in a single layer and the stacked baked bricks in a double layer, and the stacking efficiency of the baked bricks after the kiln is discharged is improved;

2. the non-unstacking and stacking machine behind the brick sintering kiln is provided with the placing plate on the surface of the rack for placing the spare bricks, the spare bricks are pushed into a layer of sintered bricks needing to be squeezed and pushed to eliminate gaps by the pushing plate pushed by the air cylinder, so that gaps between the bricks in the sintered stacks are filled, and the integral packing or transferring and transferring of the subsequent whole stacked bricks are facilitated;

3. the non-unstacking stacker crane behind the brick kiln is additionally provided with a steering adjusting structure for the backing plates between the two groups of racks, namely, after the backing plates are conveyed to the rotary table, the rotary table is pushed and lifted, so that the backing plates are prevented from being transferred by the next group of transmission belt groups, the rotary table rotates ninety degrees at the moment to realize steering adjustment of the backing plates, and when the rotary table descends, the backing plates are transferred to the next group of racks by the next group of transmission belt groups to adjust gaps of residual baked bricks.

Drawings

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

FIG. 2 is a schematic view of the frame structure of the present invention;

FIG. 3 is a side view of the frame structure of the present invention;

FIG. 4 is a schematic view of the connection structure of the shim plate and the square steel shim according to the present invention;

FIG. 5 is a schematic view of a base structure according to the present invention;

fig. 6 is an enlarged view of a structure shown in fig. 5.

In the figure: the device comprises a rack 1, a first electric push rod 2, a chain belt frame 3, a lifting clamping plate 4, a hoisting unit 5, a base rail 6, a transmission belt group 7, a backing plate 8, a square steel pad 9, an unloading groove 10, a sintered brick 11, an auxiliary backup plate 12, a guide rail 13, a placing plate 14, a spare brick 15, an adjusting frame 16, an air cylinder 161, a push plate 162, a slide rail 17, a base 18, a splicing groove 19, a turntable 20, a sleeve 21, a driving motor 22, a guide groove 23, a limiting pin 24, a first mounting groove 25, a second mounting groove 26, a second electric push rod 27 and a pulley 28.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 6, the present invention provides a technical solution: a non-unstacking and stacking machine behind a brick sintering kiln comprises two groups of racks 1, wherein a lifting clamping assembly and an auxiliary clamping assembly are mounted on the surface of each rack 1, the lifting clamping assembly and the auxiliary clamping assembly clamp a brick sintering 11, each lifting clamping assembly comprises a first electric push rod 2 and a chain belt frame 3 fixed to the end portion of a piston rod of the first electric push rod 2, chains inside the chain belt frames 3 are meshed with meshing buckles on the surfaces of lifting clamping plates 4, the first electric push rods 2 are fixed to vertical rods of the racks 1 through pin shaft frames, the chain belt frames 3 are provided with two groups, the lifting clamping plates 4 are located between the two chain belt frames 3, a plurality of lifting clamping plates 4 are arranged, each auxiliary clamping assembly comprises a guide rail 13 and auxiliary backup plates 12 connected to the surfaces of the guide rails 13 in a sliding mode, the auxiliary backup plates 12 correspond to the lifting clamping plates 4 one to one, and a hoisting unit 5 is arranged at the top of each rack 1;

the surface of the rack 1 is provided with a slide rail 17, a pushing assembly is arranged above the slide rail 17 and comprises an adjusting frame 16, a cylinder 161 is mounted on a frame body of the adjusting frame 16, the end part of a piston rod of the cylinder 161 is fixed on the surface of a push plate 162, the push plate 162 corresponds to the lifting clamping plate 4 one by one, a standby compensation part is arranged on the surface of the rack 1, the pushing assembly pushes the standby compensation part to push the sintered bricks 11 needing to be stacked, the standby compensation part comprises a placing plate 14 and standby bricks 15 placed on the surface of the placing plate 14, the placing plate 14 is fixed on a stand column of the rack 1, and the placing plate 14 corresponds to the push plate 162 one by one;

the sintered brick blocks 11 are placed on a reinforcing pad group, the reinforcing pad group comprises a base plate 8 and a square steel pad 9 fixed on the top surface of the base plate 8, an unloading groove 10 is formed in the surface of the square steel pad 9, the unloading groove 10 penetrates through two side plates and a top plate of the square steel pad 9, the reinforcing pad group is conveyed by a carrying assembly, the carrying assembly comprises a base rail 6 and a transmission belt group 7 installed inside the base rail 6, the base rail 6 is fixed on a bottom beam of the rack 1, and two groups of base rails 6 are arranged;

the square steel pad 9 and the unloading groove 10 on the backing plate 8 can be selected and installed according to the actual packaging requirement of the stack body, and the size of the backing plate 8 is matched with the bottom area of the stack body;

the steering adjusting assembly is arranged between the two groups of racks 1, the steering adjusting assembly realizes ninety-degree steering of stacked sintered bricks 11, the steering adjusting assembly comprises a base 18, a splicing groove 19 formed in the top surface of the base 18 and a rotary disc 20 inserted into the splicing groove 19, a pushing assembly and a lifting rotating member are arranged between the base 18 and the rotary disc 20, the pushing assembly lifts the rotary disc 20, the lifting rotating member drives the rotary disc 20 to rotate, the pushing assembly comprises a second mounting groove 26, a second electric push rod 27 mounted inside the second mounting groove 26 and a pulley 28 fixed on the top end of a piston rod of the second electric push rod 27, the second mounting groove 26 is formed in the bottom surface of the splicing groove 19, the lifting rotating member comprises a first mounting groove 25, a driving motor 22 fixed inside the first mounting groove 25 and a sleeve 21 sleeved outside the shaft body of the driving motor 22, the sleeve 21 is fixed on the bottom surface of the rotary disc 20, the first mounting groove 25 is formed in the bottom surface of the splicing groove 19, a guide groove 23 is formed in the surface of the shaft body of the driving motor 22, a limit pin 24 is inserted into the guide groove 23, the limit pin 24 penetrates through side plate of the sleeve 21, and the guide groove 23 is provided with multiple groups, and the multiple groups of guide grooves 23 are arranged on the side wall of the arc-shaped like a cross-shaped arc-shaped driving motor 22.

The working principle is as follows: in actual use, the stacked sintered bricks 11 are pressed on a cushion seat formed by the square steel cushion 9 and the backing plate 8, wherein the surface of the square steel cushion 9 is provided with unloading grooves 10 to improve the compression resistance of the square steel cushion 9; the first electric push rod 2 in the first unloading groove 10 pushes the lifting clamping plate 4 to approach the stacked sintered bricks 11, at this time, the lifting clamping plate 4 pushes and clamps the sintered bricks 11 in double layers between the lifting clamping plate 4 and the auxiliary backup plate 12, the chain belt in the chain belt frame 3 drives the lifting clamping plate 4 to ascend, so that the sintered bricks 11 in single layers are flush with the spare bricks 15 corresponding to the right side, at this time, the adjusting frame 16 slides to one side of the frame 1 along the slide rail 17, the starting cylinder 161 pushes the push plate 162 to push the spare bricks 15 on the upper part of the placing plate 14 to one side of the sintered bricks 11 in single layers, and as the piston rod of the cylinder 161 extends, the gap between the adjacent sintered bricks 11 in single layers is gradually reduced until the spare bricks 15 are pushed to one side of the sintered bricks 11 in single layers, at this moment, the piston rod of the first electric push rod 2 is recovered to drive the lifting clamping plate 4 to remove the clamping force, because the addition of the spare brick 15, the sintered brick 11 in the even number layer can not fall, at this moment, the first group of slide rail 17 carries the backing plate 8 to move to the carousel 20, at this moment, the carousel 20 flushes with the slide rail 17 top surface, start the lifting of the second electric push rod 27 with the carousel 20, at this moment, the sleeve 21 slides up along the axis of driving motor 22, the driving motor 22 axis rotates and drives the backing plate 8 to rotate ninety degrees, then start next group of transmission belt group 7, and the second electric push rod 27 descends, at this moment, the carousel 20 descends slowly, until the backing plate 8 is carried to next group of frame 1 by next group of transmission belt group 7, next group of frame 1 realizes the centre gripping of sintered brick 11 in the odd number layer, push the clearance of adjacent sintered brick 11 to the sintered brick 11 in the even number layer.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a whole buttress machine of not unstacking behind sintered brick kiln, includes two sets of frames (1), its characterized in that: the surface mounting of frame (1) has lift centre gripping subassembly and supplementary centre gripping subassembly, lift centre gripping subassembly and supplementary centre gripping subassembly are to fritting brick (11) centre gripping, and the surface of frame (1) is provided with slide rail (17), the top of slide rail (17) is provided with the top and pushes away the subassembly, and the surface of frame (1) is provided with reserve compensating part, the top pushes away spare compensating part and pushes away fritting brick (11) that need whole buttress, fritting brick (11) are put on strengthening the pad group, strengthen the pad group and are carried by the delivery subassembly, and be provided with between two sets of frames (1) and turn to the adjusting part, turn to the ninety degrees that the adjusting part realized stacking fritting brick (11) and turn to.

2. The unstacking and stacking machine after the sintering brick kiln as claimed in claim 1, wherein: the lifting clamping component comprises a first electric push rod (2) and a chain belt frame (3) fixed at the end part of a piston rod of the first electric push rod (2), a chain inside the chain belt frame (3) is connected with an occlusion buckle on the surface of a lifting clamping plate (4) in a buckling mode, the first electric push rod (2) is fixed in a vertical rod of the rack (1) through a pin shaft frame, the chain belt frame (3) is provided with two groups, the lifting clamping plate (4) is located between the two chain belt frames (3), and the lifting clamping plate (4) is provided with a plurality of parts.

3. A non-unstacking and palletizing machine after a sintering brick kiln as claimed in claim 1 or 2, wherein: the auxiliary clamping assembly comprises a guide rail (13) and an auxiliary backup plate (12) which is connected to the surface of the guide rail (13) in a sliding mode, the auxiliary backup plate (12) corresponds to the lifting clamping plates (4) one by one, and the top of the rack (1) is provided with a hoisting unit (5).

4. A non-unstacking and palletizing machine after a sintering brick kiln as claimed in claim 1 or 2, wherein: the pushing assembly comprises an adjusting frame (16), an air cylinder (161) is installed on a frame body of the adjusting frame (16), the end part of a piston rod of the air cylinder (161) is fixed on the surface of a pushing plate (162), and the pushing plate (162) corresponds to the lifting clamping plate (4) one by one.

5. A non-unstacking and stacking machine after sintering brick kiln according to claim 1 or 4, characterized in that: the standby compensation part comprises a placing plate (14) and standby bricks (15) placed on the surface of the placing plate (14), the placing plate (14) is fixed on a stand column of the rack (1), and the placing plate (14) corresponds to the push plates (162) one by one.

6. The unstacking and stacking machine after the sintering brick kiln as claimed in claim 1, wherein: strengthen the pad group including backing plate (8) and fix square steel pad (9) at backing plate (8) top surface, uninstallation groove (10) have been seted up on the surface of square steel pad (9), and two curb plates and the roof of square steel pad (9) are run through in uninstallation groove (10).

7. The non-unstacking and stacking machine after the sintering brick kiln as claimed in claim 1, characterized in that: the carrying assembly comprises a base rail (6) and a transmission belt group (7) arranged inside the base rail (6), the base rail (6) is fixed on a bottom cross beam of the rack (1), and the base rail (6) is provided with two groups.

8. The non-unstacking and stacking machine after the sintering brick kiln as claimed in claim 1, characterized in that: the steering adjusting assembly comprises a base (18), a splicing groove (19) formed in the top surface of the base (18) and a rotary disc (20) inserted into the splicing groove (19), a pushing assembly and a lifting rotating member are arranged between the base (18) and the rotary disc (20), and the lifting rotating member drives the rotary disc (20) to rotate after the rotating disc (20) is lifted by the pushing assembly.

9. The unstacking and stacking machine after the sintering brick kiln as claimed in claim 8, wherein: the pushing assembly comprises a second mounting groove (26), a second electric push rod (27) mounted inside the second mounting groove (26) and a pulley (28) fixed to the top end of a piston rod of the second electric push rod (27), and the second mounting groove (26) is formed in the bottom surface of the splicing groove (19).

10. The machine of claim 8 for unstacking and stacking a plurality of bricks after sintering a brick kiln, wherein: the lifting rotating piece comprises a first mounting groove (25), a driving motor (22) fixed inside the first mounting groove (25) and a sleeve (21) sleeved on the outer side of the shaft body of the driving motor (22) are fixed on the bottom surface of the turntable (20), the bottom surface of the splicing groove (19) is arranged on the first mounting groove (25), a guide groove (23) is formed in the surface of the shaft body of the driving motor (22), a limiting pin (24) is inserted inside the guide groove (23), the limiting pin (24) penetrates through a side plate of the sleeve (21), the guide groove (23) is provided with multiple groups, and the multiple groups of guide grooves (23) are arranged on the arc side wall of the shaft body of the driving motor (22) in a cross shape.

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