CN212075587U - Brick supporting plate conveying device of plate feeding machine of brick machine system - Google Patents

Abstract

The utility model relates to a brick supporting plate conveying device of a plate feeding machine of a brick making machine system. The device comprises a frame assembly, wherein a guide assembly, a top plate assembly and a conveying assembly are arranged on the frame assembly, and an alignment assembly is also arranged in the middle of the frame assembly; the guide assembly comprises an outer hanging rack and an inner hanging rack which are arranged on the frame assembly, a first limiting plate and a second limiting plate which are opposite to each other are arranged between the outer hanging rack and the inner hanging rack, and a first roller base and a second roller base which are opposite to each other and are provided with rollers are arranged between the two limiting plates; the top plate assembly comprises a translation frame moving along the frame assembly, and a top plate is hinged to the front part of the translation frame; the conveying assembly comprises a first chain wheel and a second chain wheel which are respectively arranged at the head end and the tail end of the frame assembly, a translation chain is arranged between the two chain wheels, and the translation frame is fixedly connected with the translation chain and further comprises a translation driving assembly for driving the translation chain. The utility model discloses rational in infrastructure, conveying efficiency is high, the operation smoothness degree is high, little to holding in the palm the brick board damage.

Description

Brick supporting plate conveying device of plate feeding machine of brick machine system

Technical Field

The utility model belongs to the technical field of the brick machine system, especially, relate to a brick supporting plate conveyor of trigger on brick machine system.

Background

The baking-free brick is a novel wall material which is manufactured by using fly ash, coal cinder, coal gangue, tailing slag, chemical industry slag or natural sand, tidal marsh mud and the like (one or more of the above raw materials) as main raw materials without high-temperature calcination, and has the advantages of wide raw material sources, energy conservation and waste utilization, high strength, water resistance, weathering corrosion resistance, freeze thawing resistance and the like, so that the baking-free brick is more and more widely applied, and the demand is increased day by day.

The automatic brick making and brick discharging process of the brick making machine system comprises the following steps: the brick supporting plate is conveyed to a station of brick making equipment by a plate feeding machine, the lower die is moved onto the brick supporting plate, the upper die and the lower die are assembled after blanks are injected into the lower die, the blanks are compacted and formed under the vibration action, the blanks are left on the brick supporting plate after the lower die is demoulded, and then the bricks are transferred to a maintenance place for maintenance. Therefore, in the complete set of brick making and brick discharging brick machine system, the plate loading machine is used as an important component part, plays an important role in the operation of the brick machine system, and directly determines the production efficiency of brick making and brick discharging.

The existing plate feeding machine has insufficient automation degree, so that the plate feeding operation efficiency of a brick supporting plate (template) is low, and the production efficiency of a brick machine system is further influenced. On the other hand, the continuous production mode of 'upper plate-die assembly-vibration molding-lower plate' puts higher requirements on the position precision of the upper plate of the brick supporting plate, and as the brick supporting plates are stacked layer by layer and taken layer by layer from the top during the upper plate loading, if the brick supporting plates are not stacked and stacked in a more regular manner, the problems of blockage and the like of the upper plate of the brick supporting plate easily occur in the subsequent upper plate loading process. Moreover, the existing upper plate device easily causes the damage of the brick supporting plate, leads to the loss of the brick supporting plate and improves the production cost of brick making.

An optimum design of the structure of the pallet loader is therefore required, wherein the means for conveying the tile pallets have a significant influence on the operating characteristics of the pallet loader installation.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the technical problem who exists among the well-known art and provide a rational in infrastructure, conveying efficiency is high, the operation smoothness degree is high, to the tile supporting plate conveyor of trigger on the little brick machine system of tile supporting plate damage.

The utility model discloses a solve the technical scheme that technical problem that exists among the well-known technique took and be: a brick supporting plate conveying device of a plate loading machine of a brick machine system comprises a frame assembly, wherein a guide assembly, a top plate assembly and a conveying assembly for driving the top plate assembly to move in a translation mode are arranged on the frame assembly, and an alignment assembly is further arranged in the middle of the frame assembly; the guide assembly comprises an outer hanging rack and an inner hanging rack which are arranged on the frame assembly, a first limiting plate and a second limiting plate which are opposite to each other are arranged between the outer hanging rack and the inner hanging rack, and a first roller base and a second roller base which are opposite to each other and are provided with rollers are arranged between the two limiting plates; the top plate assembly comprises a translation frame moving along the frame assembly, and a top plate is hinged to the front part of the translation frame; the conveying assembly comprises a first chain wheel and a second chain wheel which are respectively arranged at the head end and the tail end of the frame assembly, a translation chain is arranged between the two chain wheels, and the translation frame is fixedly connected with the translation chain and further comprises a translation driving assembly for driving the translation chain.

The utility model has the advantages that: the utility model provides a brick supporting plate conveying device of trigger on brick machine system that structural design is reasonable compares with the conveyor of existing equipment, the utility model discloses in through the conveying subassembly that sets up frame set spare and install roof subassembly and drive roof subassembly translation removal on frame set spare, realized carrying out the technological effect that horizontal propelling movement shifted to the top plate of the multilayer brick supporting plate of pile-up state, job stabilization is reliable. The aligning assembly is arranged in the middle of the frame assembly, so that the technical effect of aligning the stacked brick supporting plates is achieved, and the position precision of the brick supporting plates when the top plate assembly pushes the brick supporting plates is guaranteed. Through setting up the direction subassembly, realized the direction removal to holding in the palm the brick board, further guaranteed the position accuracy degree when holding in the palm the brick board and carrying to brick machine equipment. The conveying device adopts a transverse push-pull action mode to be matched with layer-by-layer lifting action control, realizes quick plate loading operation of the brick supporting plate, has high conveying efficiency and high running smoothness, and is favorable for improving the production efficiency of a brick machine system. Meanwhile, due to the optimized design of the structures of the guide assembly, the top plate assembly and other assemblies, the brick supporting plate is effectively prevented from being damaged (particularly at the edge position), and the loss of the brick supporting plate is reduced.

Preferably: the aligning assembly comprises a fixing plate connected with the frame assembly by adopting a mounting base, an air cylinder is mounted on the outer side of the fixing plate, and a push plate is mounted at the end part of a piston rod of the air cylinder.

Preferably: the frame assembly comprises a first frame and a second frame which are fixed with a rack of the plate loading machine through a support rod, a first end frame is arranged between the front ends of the first frame and the second frame, and a second end frame is arranged between the rear ends of the first frame and the second frame; the inboard between first frame and the second frame all is equipped with the race, all is equipped with the rail wheel in the both sides of translation frame, and the rail wheel is located the race.

Preferably: a window is arranged in the middle of the top plate, the translation frame is positioned between the upper portion and the lower portion of the translation chain, and the portion, located below the translation chain, penetrates through the window.

Preferably: the translation driving assembly comprises a motor base which is installed and fixed on the frame assembly through a support, and a translation motor which drives the translation chain is installed on the motor base.

Preferably: the alignment assembly further comprises a height limiting assembly, the height limiting assembly comprises a liftable limiting ejector rod and a contact switch triggered by the limiting ejector rod, and a limiting pressing wheel is installed at the lower end of the limiting ejector rod.

Preferably: the aligning assembly further comprises a guide mechanism, the guide mechanism comprises a left guide rod and a right guide rod which are fixed with the push plate, guide holes are formed in corresponding positions on the fixing plate, and the guide rods are located in the guide holes.

Drawings

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

FIG. 2 is a schematic view of the mating arrangement of the top plate assembly and the conveyor assembly of FIG. 1;

FIG. 3 is a schematic structural view of the guide assembly of FIG. 1;

fig. 4 is a schematic structural view of the alignment assembly of fig. 1.

In the figure: 1. a frame assembly; 1-1, a first frame; 1-2, a second frame; 1-3, a first end frame; 1-4, a second end frame; 1-5, a support rod; 2. a delivery assembly; 2-1, a first sprocket; 2-2, a second sprocket; 2-3, a motor base; 2-4, a bracket; 2-5, a translation chain; 3. a top plate assembly; 3-1, translating the frame; 3-2, rail wheels; 3-3, a top plate; 4. a guide assembly; 4-1, an outer hanging rack; 4-2, an inner hanging rack; 4-3, a first limiting plate; 4-4, a second limiting plate; 4-5, a first roller base; 4-6, a second roller base; 4-7, rollers; 5. an alignment assembly; 5-1, mounting a base; 5-2, fixing plates; 5-3, a cylinder; 5-4, a guide rod; 5-5, pushing the plate; 5-6 and a height limiting mechanism.

Detailed Description

For further understanding of the contents, features and effects of the present invention, the following embodiments are described in detail.

Please refer to fig. 1, the utility model discloses a tile supporting plate conveyor of trigger on brick machine system includes frame assembly 1, install direction subassembly 4 on frame assembly 1, roof subassembly 3 and the transport assembly 2 of the translational motion of drive roof subassembly 3, still install alignment subassembly 5 in the middle part of frame assembly 1, wherein direction subassembly 4 is used for leading in order to guarantee the degree of accuracy of shift position to the tile supporting plate, roof subassembly 3 is under the drive of transport subassembly 2 with the tile supporting plate to the propelling movement of direction subassembly 4, under the drive of transport subassembly 2, roof subassembly 3 makes reciprocal push-and-pull movement, alignment subassembly 5 is used for aligning the tile supporting plate, the tile supporting plate after the alignment can more smoothly transfer to on the direction subassembly 4 under the propelling movement effect of roof subassembly 3.

Referring to fig. 3, it can be seen that:

the guide component 4 comprises an outer hanging rack 4-1 and an inner hanging rack 4-2 which are arranged on the frame component 1, a first limiting plate 4-3 and a second limiting plate 4-4 which are opposite are arranged between the outer hanging rack and the inner hanging rack, and a first roller base 4-5 and a second roller base 4-6 which are opposite and are provided with rollers 4-7 are arranged between the two limiting plates.

As shown in the figure, the outer side hanging rack 4-1 and the inner side hanging rack 4-2 are identical in structure and are in an inverted C shape and are made of thick-wall metal pipe profiles/metal rod profiles in a welding mode, the open ends of the outer side hanging rack 4-1 and the inner side hanging rack 4-2 are fixedly welded with the profiles forming the frame assembly 1, and the two hanging racks are used for supporting the two limiting plates and the two roller bases 4-6.

The first limiting plate 4-3 and the second limiting plate 4-4 are used for limiting and guiding the brick supporting plate, namely the brick supporting plate passes through the two limiting plates, so that the distance between the two limiting plates is slightly larger than the width of the brick supporting plate. The first limiting plate 4-3 and the second limiting plate 4-4 can be made of angle steel and are fixedly connected with the outer side hanging rack 4-1 and the inner side hanging rack 4-2 in a welding fixing mode, a bolt fixing mode and the like, so that the brick supporting plate can smoothly enter between the two limiting plates, and the inner ends of the two limiting plates are inclined outwards to form a flaring shape.

The first roller base 4-5 and the second roller base 4-6 are used for supporting the brick supporting plate, so that the moving resistance is reduced, and the brick supporting plate can move more smoothly. The first roller base 4-5 and the second roller base 4-6 can be made of angle steel, are fixedly connected with the outer side hanging rack 4-1 and the inner side hanging rack 4-2 in a welding fixing mode, a bolt fixing mode and the like, the rollers 4-7 can be selected to be ball bearings, mounting holes are formed in the first roller base 4-5 and the second roller base 4-6, the rollers 4-7 are mounted at corresponding positions through bolts, and when the brick supporting plate moves along the guide assembly 4, rolling friction exists between each roller 4-7 and the brick supporting plate, so that the problem of blocking of the brick supporting plate is not prone to occurring, and the operation is smooth.

Referring to fig. 1 and 2, it can be seen that:

the top plate component 3 comprises a translation frame 3-1 moving along the frame component 1, the translation frame 3-1 is made of metal pipe profiles/metal rod profiles through welding, and the top plate 3-3 is hinged to the front portion of the translation frame 3-1. Specifically, the top plate 3-3 is hinged to a section bar at the front part of the translation frame 3-1 by a hinge, so that when the top plate assembly 3 moves towards the guide assembly 4 along the frame assembly 1, the brick supporting plate at the top layer is pushed away from the original position and is transferred to the guide assembly 4 when the stacked brick supporting plates pass through, when the top plate assembly 3 moves away from the guide assembly 4 along the frame assembly 1, the top plate 3-3 automatically tilts when the stacked brick supporting plates pass through, slides along the surface of the brick supporting plate at the next layer to reset and move, so that the brick supporting plates cannot be pushed backwards, and under the action of self gravity, the top plate 3-3 returns to a sagging state and pushes the brick supporting plate at the next layer when the top plate moves forwards again.

As shown in fig. 1 and 2, the frame assembly 1 comprises a first frame 1-1 and a second frame 1-2 which are fixed on the frame of the plate loader equipment through support rods 1-5, a first end frame 1-3 is arranged between the front ends of the first frame and the second end frame 1-4 is arranged between the rear ends of the first frame and the second frame, so that the frame assembly 1 is an elongated and transverse frame structure. As shown in FIG. 1, two support rods 1-5 are respectively arranged on the outer sides of a first frame 1-1 and a second frame 1-2, the outer end of each support rod 1-5 is fixedly connected with a vertical column profile of a rack of the plate loading machine equipment, and the forms of welding fixation, bolt fixation and the like can be selected. In order to enhance the overall structural strength of the frame assembly 1, a plurality of connecting rods (each of which cannot affect the translational movement of the top plate assembly 3) may be welded between the first and second rims 1-1 and 1-2.

In order to improve the stability of the top plate assembly 3 during the translational movement, in this embodiment, wheel grooves are formed in the inner sides of the first frame 1-1 and the second frame 1-2, rail wheels 3-2 are arranged on the two sides of the translational frame 3-1, and the rail wheels 3-2 are located in the wheel grooves and move in a rolling manner. Specifically, both the first frame 1-1 and the second frame 1-2 of the frame assembly 1 may be made of C-shaped steel, and the grooves of the C-shaped steel are used as the wheel grooves.

Referring to fig. 1 and 2, it can be seen that:

the conveying assembly 2 comprises a first chain wheel 2-1 and a second chain wheel 2-2 which are respectively arranged at the head end and the tail end of the frame assembly 1, wherein the first chain wheel 2-1 is arranged in the middle of the first end frame 1-3, the second chain wheel 2-2 is arranged in the middle of the second end frame 1-4, a translation chain 2-5 is arranged between the two chain wheels, the translation frame 3-1 is fixedly connected with the translation chain 2-5, and when the translation chain 2-5 moves, the translation frame 3-1 moves back and forth along the length direction of the frame assembly 1.

The device also comprises a translation driving assembly for driving the translation chains 2-5, wherein in the embodiment, the translation driving assembly comprises a motor base 2-3 which is fixedly arranged on the frame assembly 1 by adopting a bracket 2-4, and a translation motor (not shown in the figure) for driving the translation chains 2-5 is arranged on the motor base 2-3. As shown in the figure, a support 2-4 is erected between a first frame 1-1 and a second frame 1-2, a motor base 2-3 is fixedly connected with the support 2-4 in a welding fixing mode or a bolt fixing mode, and a translation motor is fixedly installed on the motor base 2-3 through bolts. A coaxial driving chain wheel can be arranged at the outer end of the wheel shaft of the second chain wheel 2-2, a driving chain wheel is arranged on the motor shaft of the translation motor, and the driving chain wheel is in chain transmission connection with the driving chain wheel, so that the translation motor can drive the translation chain 2-5 to move.

In this embodiment, a window is provided in the middle of the top plate 3-3, the translation frame 3-1 is located between the upper and lower portions of the translation chain 2-5, and the lower portion of the translation chain 2-5 passes through the window. Thus, the part of the top plate 3-3 below the window is positioned below the part of the translation chain 2-5 below the window, and the top plate 3-3 is not influenced by the translation chain 2-5 when the brick supporting plate is pushed and moved and reset.

Referring to fig. 1 and 4, it can be seen that:

the aligning component 5 comprises a fixing plate 5-2 connected with the frame component 1 by adopting a mounting base 5-1, the mounting base 5-1 is fixedly connected with a second frame 1-2 of the frame component 1, the fixing plate 5-2 is fixedly welded at the outer end of the mounting base 5-1, an air cylinder 5-3 is arranged at the outer side of the fixing plate 5-2, and a push plate 5-5 is arranged at the end part of a piston rod of the air cylinder 5-3. When the cylinder 5-3 acts, the push plate 5-5 moves towards the stacked brick supporting plates to push the upper brick supporting plate forwards for extrusion, so that the alignment operation is realized. The aligned tile supporting plate and the guiding component 4 have more accurate position relation, and the top plate component 3 can push the tile supporting plate to the guiding component 4 more smoothly.

In order to improve the moving stability of the push plate 5-5, a left guide rod 5-4 and a right guide rod 5-4 are arranged on the push plate 5-5, guide holes are arranged at corresponding positions on the fixed plate 5-2, the guide rods 5-4 are respectively positioned in the guide holes, and under the combined action of the guide rods 5-4 and the guide holes, the push plate 5-5 moves inwards and outwards stably.

In this embodiment, the alignment assembly 5 further includes a height limiting assembly 5-6, the height limiting assembly 5-6 includes a liftable limiting ejector rod and a contact switch triggered by the limiting ejector rod, a limiting pressure wheel is installed at the lower end of the limiting ejector rod, the limiting pressure wheel can be selected as a ball bearing, and the limiting pressure wheel is installed at the bottom of the limiting ejector rod by a bolt.

Specifically, a sleeve is welded and fixed on the second frame 1-2 of the frame assembly 1, the liftable limiting ejector rod is located in the sleeve, and a top plate is welded at the upper end of the limiting ejector rod, so that the limiting ejector rod cannot fall off from the sleeve in a natural state, the contact switch is located at the upper end of the limiting ejector rod, namely above the top plate, and when the limiting ejector rod is jacked to rise, the top plate can trigger the contact switch to generate a signal. The height limiting assembly 5-6 is used for detecting the height of the brick supporting plate in the rising process, when the brick supporting plate is lifted by the lifting device, the initial working position is judged by the height limiting assembly 5-6, namely the brick supporting plate at the top layer drives the limiting ejector rod to rise, when the contact switch generates a trigger signal, the lifting device of the brick supporting plate stops at the position, the position is the position which the brick supporting plate at the top layer needs to reach when being pushed every time, and therefore the height of the contact switch of the height limiting assembly 5-6 is matched with the height of the guide assembly 4.

The working process is as follows:

stacking the brick supporting plates on a lifting device;

the conveying assembly 2 acts, the top plate assembly 3 moves forwards, the bottom edge of the top plate 3-3 abuts against the rear edge of the top layer brick supporting plate, and when the top layer brick supporting plate continues to move, the top layer brick supporting plate is pushed away from the original position and transferred to the guide assembly 4, and then the top layer brick supporting plate is taken by brick making equipment; then the top plate component 3 retreats, the top plate 3-3 automatically tilts and automatically droops and resets after passing through the brick supporting plate;

the elevating gear action, the height that will pile up the support brick board of stacking promotes a support brick board thickness, and then the support brick board of next layer just becomes the top layer support brick board, and roof subassembly 3 removes once more and carries out the propelling movement to the support brick board, so form continuous, rhythmic transport/upper plate operation.

Claims (7)

1. The utility model provides a brick supporting plate conveyor of trigger on brick machine system which characterized by: the device comprises a frame assembly (1), wherein a guide assembly (4), a top plate assembly (3) and a conveying assembly (2) for driving the top plate assembly (3) to move in a translation manner are arranged on the frame assembly (1), and an alignment assembly (5) is also arranged in the middle of the frame assembly (1);

the guide assembly (4) comprises an outer side hanging rack (4-1) and an inner side hanging rack (4-2) which are arranged on the frame assembly (1), a first limiting plate (4-3) and a second limiting plate (4-4) which are opposite are arranged between the outer side hanging rack and the inner side hanging rack, and a first roller base (4-5) and a second roller base (4-6) which are opposite and are provided with rollers (4-7) are arranged between the two limiting plates; the top plate assembly (3) comprises a translation frame (3-1) moving along the frame assembly (1), and a top plate (3-3) is hinged to the front part of the translation frame (3-1); the conveying assembly (2) comprises a first chain wheel (2-1) and a second chain wheel (2-2) which are respectively arranged at the head end and the tail end of the frame assembly (1), a translation chain (2-5) is arranged between the two chain wheels, the translation frame (3-1) is fixedly connected with the translation chain (2-5), and the conveying assembly further comprises a translation driving assembly for driving the translation chain (2-5).

2. The tile pallet conveyor system for a loader of a tile machine system of claim 1 further comprising: the aligning component (5) comprises a fixing plate (5-2) which is connected with the frame component (1) by adopting a mounting base (5-1), an air cylinder (5-3) is mounted on the outer side of the fixing plate (5-2), and a push plate (5-5) is mounted at the end part of a piston rod of the air cylinder (5-3).

3. The tile pallet conveyor system for a loader of a tile machine system of claim 2 further comprising: the frame assembly (1) comprises a first frame (1-1) and a second frame (1-2) which are fixed with a rack of the plate loading machine through a support rod (1-5), a first end frame (1-3) is arranged between the front ends of the first frame and the second frame, and a second end frame (1-4) is arranged between the rear ends of the first frame and the second frame; wheel grooves are formed in the inner sides of the first frame (1-1) and the second frame (1-2), track wheels (3-2) are arranged on the two sides of the translation frame (3-1), and the track wheels (3-2) are located in the wheel grooves.

4. A tile pallet conveyor assembly for a loader of a tile making machine system as defined in claim 3, further comprising: a window is arranged in the middle of the top plate (3-3), the translation frame (3-1) is positioned between the upper part and the lower part of the translation chain (2-5), and the part of the translation chain (2-5) positioned at the lower part passes through the window.

5. The tile pallet conveyor system for a loader of a tile machine system of claim 4 further comprising: the translation driving assembly comprises a motor base (2-3) which is fixedly arranged on the frame assembly (1) by adopting a support (2-4), and a translation motor which drives the translation chain (2-5) is arranged on the motor base (2-3).

6. The tile pallet conveyor system for a loader of a tile machine system of claim 5 further comprising: the aligning component (5) further comprises a height limiting component (5-6), the height limiting component (5-6) comprises a liftable limiting ejector rod and a contact switch triggered by the limiting ejector rod, and a limiting pinch roller is installed at the lower end of the limiting ejector rod.

7. The tile supporting plate conveying device of a plate loading machine of a brick making machine system as claimed in claim 6, characterized in that: the aligning component (5) also comprises a guide mechanism, the guide mechanism comprises a left guide rod (5-4) and a right guide rod (5-4) which are fixed with the push plate (5-5), a guide hole is arranged at the corresponding position on the fixed plate (5-2), and the guide rods (5-4) are positioned in the guide hole.

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