CN214140622U - Brick fragment pile up neatly stacking mechanism for system - Google Patents

Abstract

The utility model relates to a fragment of brick pile up neatly mechanism for system, include: the material receiving plate is connected with a shifting conveying line; the stacking frame is provided with a lifting and supporting mechanism for supporting the pallet and the bricks; the blocking component is arranged on one side of the stacking frame, close to the shifting conveying line, and is lifted to move so that the brick blocks move along with the material receiving plate when the material receiving plate is separated; the clamping arrangement components are arranged on the two sides of the stacking rack in the width direction of the shifting conveying line and used for oppositely clamping the two sides of the brick; and the pressing and leveling assembly is arranged on one side of the stacking frame opposite to the blocking assembly and used for abutting against the outer side face of the brick. The separating and blocking assembly descends to be attached to the material receiving plate, the two sides of the bricks are clamped relatively by the clamping and arranging assembly, the outer side surfaces of the bricks are abutted tightly by the pressing and leveling assembly, the lifting and supporting mechanism ascends to the uppermost layer of the bricks and is attached to the lower surface of the material receiving plate, the shifting conveying line drives the material receiving plate to reset, and natural stacking can be achieved on the pallet or the bricks below.

Description

Brick fragment pile up neatly stacking mechanism for system

Technical Field

The utility model relates to a fragment of brick processing equipment technical field, in particular to fragment of brick pile up neatly mechanism for system.

Background

Along with the promotion of production technology, some dedicated fragment of brick former of building block accessible utilize corresponding mould press forming at present, and the fragment of brick after the shaping need carry out the maintenance of certain time, and the fragment of brick need place on a layer board during the maintenance, and a layer fragment of brick can only be placed to a layer board, and adjacent fragment of brick need leave the clearance to guarantee the circulation of air. The fragment of brick is when leaving the factory, needs to shift the fragment of brick of same layer from the layer board and closely arrange on shipment pallet, and this step needs to be supplementary through many equipment at present to be accomplished, and the complex operation process is loaded down with trivial details complicacy, wastes time and energy.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a fragment of brick pile up neatly is pile up neatly mechanism for system has the advantage with the neat pile up neatly of fragment of brick that can be quick convenient.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a stacking mechanism for a brick stacking system, comprising:

the material receiving plate is used for bearing the bricks which are arranged orderly and is connected with a shifting conveying line;

the stacking frame is in butt joint with the shifting conveying line, and a lifting and supporting mechanism for supporting the pallet and the bricks is arranged on the stacking frame;

the blocking component is arranged on one side of the stacking frame, close to the shifting conveying line, and is lifted to move so that the brick blocks move along with the material receiving plate when the material receiving plate is pulled away;

the clamping arrangement components are arranged on the two sides of the stacking rack in the width direction of the shifting conveying line and used for oppositely clamping two sides of a brick; and the number of the first and second groups,

the pressing and leveling component is arranged on one side of the stacking rack opposite to the blocking component and used for pressing the outer side face of the brick.

The technical scheme is realized, after the bricks are conveyed to the material receiving plate, the material receiving plate is driven by the shifting conveying line to move right above the lifting code supporting mechanism, then the blocking component descends to be attached to the material receiving plate, the two sides of the bricks are clamped relatively by the clamping arrangement component, the outer side surfaces of the bricks are supported tightly by the pressing code leveling component, the lifting code supporting mechanism ascends to the uppermost layer of the bricks to be attached to the lower surface of the material receiving plate, then the shifting conveying line drives the material receiving plate to reset, in the process of resetting the material receiving plate, the bricks are naturally stacked on the pallet or the bricks below under the action of gravity, and due to the fact that the thickness of the material receiving plate is small, the bricks cannot be disordered in the falling process, and the process can be repeated to continuously carry out stacking of the bricks.

As a preferred scheme of the utility model, lift bracket mechanism includes: the material receiving plate can be moved to the position right above the stacking table by the shifting conveying line driving rod.

As a preferred scheme of the utility model, servo lifting unit selects alone or the combination is suitable for from following structure: a chain drive assembly or a lead screw drive assembly.

According to the technical scheme, the servo driving assembly drives the code supporting table to move up and down, so that the height of the brick stacking table can be adjusted.

As a preferred aspect of the present invention, the blocking assembly includes: the separation baffle plate comprises a separation baffle cylinder fixed on the stacking rack and a separation baffle plate fixed on a piston rod of the separation baffle cylinder.

According to the technical scheme, the blocking cylinder drives the blocking plate to descend, so that backward movement of the bricks can be limited.

As a preferred scheme of the utility model, still be equipped with on the baffle and support and push away the subassembly, support and push away the subassembly and include: the rotary type assemble in the baffle is close to the transmission wheelset of aversion transfer chain one side, is located the opposite side of baffle just is fixed in the lapse screw rod, the slidingtype assembly of the axis of rotation of transmission wheelset in baffle and threaded connection in the lapse supporting of screw rod pushes away the seat and is fixed in support pushing away the push pedal that supports of seat.

According to the technical scheme, after the separation baffle is descended to be attached to the stacking support, the chain transmission wheel set rotates, so that the pushing screw is driven to rotate to enable the pushing seat to move forwards, and the bricks can be further compressed neatly through the pushing plate.

As a preferred aspect of the present invention, the clamping arrangement assembly includes: the clamping plates are assembled on two sides of the stacking frame in a sliding mode, the double-head cylinder is fixed on the stacking frame, and the clamping plates are connected with a piston rod of the double-head cylinder.

According to the technical scheme, the clamping plates on the two sides are driven to synchronously move through the double-head cylinder, and the two sides of the brick can be clamped and stacked together.

As a preferred scheme of the utility model, compress tightly the flat subassembly of sign indicating number and include: the stacking mechanism comprises a mounting shaft, a reset elastic piece, a pressing plate, a driving chain wheel, a stacking driving cylinder and a driving chain, wherein the mounting shaft is rotatably assembled on the stacking frame, the reset elastic piece is fixed at one end of the mounting shaft and is connected to the stacking frame at the other end of the mounting shaft, the pressing plate is fixed on the mounting shaft, the driving chain wheel is fixed at the end part of a mounting seat, the stacking driving cylinder is fixed on the stacking frame, one end of the driving chain wheel is fixed on the driving chain wheel, the other end of the driving chain wheel is fixed on a piston rod of the stacking driving cylinder, and the driving chain is meshed with the driving chain wheel; when the reset elastic piece is in a natural state, the pressing plate is folded on one side of the stacking frame.

Realize above-mentioned technical scheme, under the initial condition, the sign indicating number is flat drives actuating cylinder and is in the state of stretching out, and the pressure strip draws in pile up neatly frame one side under the effect of the elastic component that resets, and when the fragment of brick removed to the pile up neatly frame in, the sign indicating number is flat drives actuating cylinder and is retracted and stimulate the drive chain, and drive chain stimulates drive sprocket promptly and rotates, makes the pressure strip support and press the lateral surface at the fragment of brick, realizes compressing tightly the sign indicating number to the fragment of brick flat.

To sum up, the utility model discloses following beneficial effect has:

the embodiment of the utility model provides a through providing a fragment of brick pile up neatly mechanism for system, include: the material receiving plate is used for bearing the bricks which are arranged orderly and is connected with a shifting conveying line; the stacking frame is in butt joint with the shifting conveying line, and a lifting and supporting mechanism for supporting the pallet and the bricks is arranged on the stacking frame; the blocking component is arranged on one side of the stacking frame, close to the shifting conveying line, and is lifted to move so that the brick blocks move along with the material receiving plate when the material receiving plate is pulled away; the clamping arrangement components are arranged on the two sides of the stacking rack in the width direction of the shifting conveying line and used for oppositely clamping two sides of a brick; and the pressing and leveling component is arranged on one side of the stacking rack opposite to the blocking component and used for pressing the outer side surface of the brick. After the bricks are conveyed to the material receiving plate, the material receiving plate is driven by the shifting conveying line to move right above the lifting code supporting mechanism, then the blocking component descends to be attached to the material receiving plate, the two sides of the bricks are clamped relatively by the clamping arrangement component, the outer side faces of the bricks are abutted tightly by the pressing code leveling component, the lifting code supporting mechanism ascends to the uppermost layer of the bricks and is attached to the lower surface of the material receiving plate, then the shifting conveying line drives the material receiving plate to reset, in the process of resetting the material receiving plate, the bricks are naturally stacked on the pallet or the bricks below under the action of gravity, and due to the fact that the thickness of the material receiving plate is small, the bricks cannot be disordered in the falling process, and the process is repeated to continuously stack the bricks.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is an enlarged view of a portion a in fig. 1.

The corresponding part names indicated by the numbers and letters in the drawings:

1. a stacking rack; 2. a lifting support mechanism; 21. a code supporting platform; 22. a servo lifting assembly; 3. a barrier assembly; 31. a blocking cylinder; 32. a baffle plate; 4. clamping the arrangement assembly; 41. a clamping plate; 42. a double-ended cylinder; 5. a compression leveling assembly; 51. installing a shaft; 52. a restoring elastic member; 53. a compression plate; 54. a drive sprocket; 55. a code-level driving cylinder; 56. a drive chain; 6. a pushing component; 61. a transmission wheel set; 62. pushing the screw; 63. a pushing seat; 64. pushing the plate; 7. a material receiving plate; 71. and (5) shifting the conveying line.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Examples

A stacking mechanism for a brick stacking system, as shown in figures 1 and 2, comprising: the material receiving plate 7 is used for bearing the orderly arranged bricks, and the material receiving plate 7 is connected with a displacement conveying line 71; the stacking frame 1 is butted with the shifting conveying line 71, and the stacking frame 1 is provided with a lifting and stacking mechanism 2 for supporting the pallet and the bricks; the blocking component 3 is arranged on one side, close to the shifting conveying line 71, of the stacking rack 1 and is lifted to move so that a brick moves along with the material receiving plate 7 when the material receiving plate 7 is separated; the clamping arrangement assemblies 4 are arranged on the two sides of the stacking rack 1 in the width direction of the shifting conveying line 71 and used for oppositely clamping the two sides of a brick; and the pressing leveling component 5 is arranged on one side of the stacking frame 1 opposite to the blocking component 3 and used for abutting against the outer side face of the brick.

Specifically, lift holding in the palm a yard mechanism 2 includes: the material receiving plate 7 can be driven by a driving rod of a displacement conveying line 71 to move to the position right above the code supporting table 21, and the servo lifting assembly 22 is selected from the following structures to be used alone or in combination: in the embodiment, the servo lifting assembly 22 is a chain transmission assembly, which is driven by a servo motor to move, and the servo driving assembly drives the stacking table 21 to move up and down, so as to adjust the height of the bricks according to the height of the stacked bricks.

The barrier assembly 3 includes: be fixed in the baffle 32 that separates of keeping off cylinder 31 and being fixed in the piston rod that separates and keep off cylinder 31 of hacking frame 1, separate baffle 32 through separating the drive of keeping off cylinder 31 and descend, can restrict the fragment of brick and move backward, simultaneously, still be equipped with on separating baffle 32 and support and push away subassembly 6, support and push away subassembly 6 and include: the brick stacking machine comprises a transmission wheel set 61 rotatably assembled on one side, close to the displacement conveying line 71, of the partition plate 32, a pushing screw 62 located on the other side of the partition plate 32 and fixed to a rotating shaft of the transmission wheel set 61, a pushing seat 63 slidably assembled on the partition plate 32 and connected to the pushing screw 62 in a threaded manner, and a pushing plate 64 fixed to the pushing seat 63, wherein after the partition plate 32 descends to be attached to the stacking table 21, the chain transmission wheel set 61 rotates to drive the pushing screw 62 to rotate so that the pushing seat 63 moves forwards, and bricks can be further compressed and tidily by the pushing plate 64.

The clamping arrangement 4 comprises: the slidingtype assembles in the grip block 41 of pile up neatly frame 1 both sides and is fixed in the double-end cylinder 42 of pile up neatly frame 1, and grip block 41 is connected with double-end cylinder 42's piston rod, is equipped with the slide bar on pile up neatly frame 1, is equipped with the sliding sleeve with slide bar matched with on the grip block 41 to realize the connection of sliding of grip block 41, drive the grip block 41 synchronous motion of both sides through double-end cylinder 42, can press from both sides tight sign indicating number of fragment of brick neat.

The compact leveling assembly 5 includes: a mounting shaft 51 rotatably assembled to the pallet 1, a return elastic member 52 fixed at one end to the mounting shaft 51 and at the other end to the pallet 1, a pressing plate 53 fixed to the mounting shaft 51, a driving sprocket 54 fixed to the end of the mounting seat, a leveling driving cylinder 55 fixed to the pallet 1, and a driving chain 56 fixed at one end to the driving sprocket 54 and at the other end to a piston rod of the leveling driving cylinder 55 and engaged with the driving sprocket 54; the elastic reset piece 52 can adopt a torsion spring or a clockwork spring, and when the elastic reset piece 52 is in a natural state, the pressing plate 53 is folded at one side of the pallet frame 1; in an initial state, the stacking driving cylinder 55 is in an extending state, the pressing plate 53 is folded on one side of the stacking frame 1 under the action of the reset elastic piece 52, when bricks move into the stacking frame 1, the stacking driving cylinder 55 retracts and pulls the driving chain 56, the driving chain 56 pulls the driving chain wheel 54 to rotate, the pressing plate 53 is pressed on the outer side surface of the bricks, and pressing and stacking of the bricks are achieved.

After the bricks are conveyed to the material receiving plate 7, the material receiving plate 7 is driven by the shifting conveying line 71 to move right above the lifting code supporting mechanism 2, then the blocking component 3 descends to be attached to the material receiving plate 7, the two sides of the bricks are relatively clamped by the clamping arrangement component 4, the outer side surfaces of the bricks are abutted by the pressing code leveling component 5, the lifting code supporting mechanism 2 ascends to the uppermost layer of the bricks and is attached to the lower surface of the material receiving plate 7, then the shifting conveying line 71 drives the material receiving plate 7 to reset, in the resetting process of the material receiving plate 7, the bricks are stopped in situ under the blocking effect of the blocking component 3 and are naturally stacked on a pallet or the bricks below under the action of gravity, and due to the fact that the thickness of the material receiving plate 7 is small, the bricks cannot be disordered in the falling process, and the stacking of the bricks can be continuously performed by repeating the processes.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. The utility model provides a fragment of brick pile up neatly mechanism for system which characterized in that includes:

the material receiving plate is used for bearing the bricks which are arranged orderly and is connected with a shifting conveying line;

the stacking frame is in butt joint with the shifting conveying line, and a lifting and supporting mechanism for supporting the pallet and the bricks is arranged on the stacking frame;

the blocking component is arranged on one side of the stacking frame, close to the shifting conveying line, and is lifted to move so that the brick blocks move along with the material receiving plate when the material receiving plate is pulled away;

the clamping arrangement components are arranged on the two sides of the stacking rack in the width direction of the shifting conveying line and used for oppositely clamping two sides of a brick; and the number of the first and second groups,

the pressing and leveling component is arranged on one side of the stacking rack opposite to the blocking component and used for pressing the outer side face of the brick.

2. A stacking mechanism for a brick stacking system as claimed in claim 1, wherein the lifting palletising mechanism comprises: the material receiving plate can be moved to the position right above the stacking table by the shifting conveying line driving rod.

3. A stacking mechanism for a brick stacking system as claimed in claim 2, wherein the servo lift assembly is selected from the following: a chain drive assembly or a lead screw drive assembly.

4. The stacker mechanism for a brick stacking system of claim 1, wherein the barrier assembly comprises: the separation baffle plate comprises a separation baffle cylinder fixed on the stacking rack and a separation baffle plate fixed on a piston rod of the separation baffle cylinder.

5. The stacking mechanism for a brick stacking system as claimed in claim 4, wherein the baffle plate is further provided with a pushing assembly, and the pushing assembly comprises: the rotary type assemble in the baffle is close to the transmission wheelset of aversion transfer chain one side, is located the opposite side of baffle just is fixed in the lapse screw rod, the slidingtype assembly of the axis of rotation of transmission wheelset in baffle and threaded connection in the lapse supporting of screw rod pushes away the seat and is fixed in support pushing away the push pedal that supports of seat.

6. A stacking mechanism for a brick stacking system as claimed in claim 1, wherein the clamping arrangement comprises: the clamping plates are assembled on two sides of the stacking frame in a sliding mode, the double-head cylinder is fixed on the stacking frame, and the clamping plates are connected with a piston rod of the double-head cylinder.

7. A stacking mechanism for a brick stacking system as claimed in claim 1, wherein the compression stacking assembly comprises: the stacking mechanism comprises a mounting shaft, a reset elastic piece, a pressing plate, a driving chain wheel, a stacking driving cylinder and a driving chain, wherein the mounting shaft is rotatably assembled on the stacking frame, the reset elastic piece is fixed at one end of the mounting shaft and is connected to the stacking frame at the other end of the mounting shaft, the pressing plate is fixed on the mounting shaft, the driving chain wheel is fixed at the end part of a mounting seat, the stacking driving cylinder is fixed on the stacking frame, one end of the driving chain wheel is fixed on the driving chain wheel, the other end of the driving chain wheel is fixed on a piston rod of the stacking driving cylinder, and the driving chain is meshed with the driving chain wheel; when the reset elastic piece is in a natural state, the pressing plate is folded on one side of the stacking frame.

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