CN209974153U - Lining building block hoist and mount conveyor - Google Patents

Abstract

The utility model provides a lining block hoisting and conveying device; comprises a single-arm steering hoisting machine and a main conveyor; the horizontal rotating arm of the single-arm steering hoisting machine is hinged to the vertical frame through a bearing seat, the winch is fixed to one side, away from the vertical frame, of the rotating arm, and the lifting hook is fixed to the end portion of a steel wire rope of the winch; the conveyer belt of main conveyer forms the main transfer passage who supplies the lining block transportation at main conveyer upside, and main transfer passage top is in the swinging boom downside and terminal to stretch to the slope bottom, and main conveyer bottom is equipped with a plurality of horizontal running gear, and the walking track of horizontal running gear's walking gear motor drive can transversely walk at the inclined plane on slope. The lining blocks stacked on the slope are hoisted to the beginning end of a main conveying channel of a main conveyor through a single-arm steering hoisting machine, the main conveyor transports the lining blocks to the tail end of the main conveying channel to complete the hoisting and conveying operation of the lining blocks, the main conveyor is moved by utilizing a transverse traveling assembly, the operation is repeated for many times, and the lining blocks paved on the whole slope can be transported.

Description

Lining building block hoist and mount conveyor

Technical Field

The utility model relates to a lining block hoist and mount conveyor.

Background

The lining blocks are paved on the surfaces of the lotus pool and the dike slope to protect the slope, the lining blocks need to be densely paved, the paving surface is an inclined surface, but the transportation of the lining blocks is completed through manual transportation, the labor and the time are wasted, and the paving operation efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a lining block hoist and mount conveyor rational in infrastructure, convenient to use is provided.

In order to solve the technical problem, the utility model provides a lining block hoisting and conveying device;

comprises a single-arm steering hoisting machine and a main conveyor;

the single-arm steering hoisting machine comprises a vertical frame, a rotating arm, a winch and a lifting hook, wherein the horizontal rotating arm is hinged to the vertical frame through a bearing seat, the winch is fixed on one side, away from the vertical frame, of the rotating arm, and the lifting hook is fixed at the end part of a steel wire rope of the winch;

the conveyer belt of main conveyer forms the main transfer passage who supplies the lining block transportation at main conveyer upside, and the main transfer passage top of main conveyer is in the swinging boom downside, and the main transfer passage end of main conveyer stretches to the slope bottom, and main conveyer bottom is equipped with a plurality of horizontal walking subassemblies, horizontal walking subassembly includes walking track and walking gear motor, and walking gear motor drive walking track can be at the inclined plane horizontal walking on slope.

After the structure is adopted, the lining blocks stacked on the slope are hoisted to the initial end of a main conveying channel of the main conveyor through the single-arm steering hoisting machine, the main conveyor transports the lining blocks to the tail end of the main conveying channel to complete hoisting and conveying operation of the lining blocks, the main conveyor is moved by utilizing the transverse walking assembly, repeated operation is carried out, and the lining blocks paved on the whole slope can be transported.

The utility model has the advantages that: rational in infrastructure, convenient to use accomplish the transportation operation of lining block through mechanical equipment, promote the efficiency that the lining block was laid.

The lining block hoisting and conveying device also comprises at least one auxiliary conveyor;

the conveyer belt of assisting the conveyer forms the supplementary transfer passage who supplies the lining block transportation at the supplementary conveyer upside, assists the conveyer bottom and is equipped with at least a set of horizontal walking subassembly, horizontal walking subassembly includes walking track and walking gear motor, and walking gear motor drive walking track can transversely walk at the inclined plane on slope.

After adopting such structure, the auxiliary conveyor can prolong the distance of lining block transportation, and the number of the auxiliary conveyor can depend on the length of the slope.

A transition guide roller plate is arranged between the tail end of a main conveying channel of a main conveyor and an auxiliary conveying channel of an auxiliary conveyor of the lining block hoisting and conveying device;

the lining block hoisting and conveying device comprises a plurality of auxiliary conveyors, and a transition guide roller plate is arranged between any two adjacent auxiliary conveyors.

After adopting such structure, the transition guide roll plate can play the transition effect, makes things convenient for the transportation of lining block.

Still be equipped with the ejector pad subassembly on this lining block hoist and mount conveyor's the main conveyer, the ejector pad subassembly includes the bottom plate, the ejector pad cylinder, the guide arm, the uide bushing, connecting plate and push pedal, the support fixed connection of bottom plate and main conveyer, the cylinder fixed connection of ejector pad cylinder is at the bottom plate, the piston rod of ejector pad cylinder stretches out like keeping away from main conveyer direction, guide arm one side tip passes through the connecting plate with the piston rod tip and fixes, uide bushing fixed connection is on the bottom plate and the axial direction of uide bushing is unanimous with the trend direction of piston rod, the guide arm runs through the uide bushing and can follow the axial direction reciprocating motion of uide bushing, guide arm opposite side tip and push pedal fixed connection, the main transfer passage end of main conveyer is.

After the structure is adopted, the lining blocks are pushed down from the tail end of the main transportation through groove through the push block assembly, so that the lining blocks are unloaded to a preset position to be stacked, and the lining blocks on the conveyor are not required to be unloaded manually.

The auxiliary conveyor of the lining block hoisting and conveying device is also provided with a push block assembly, and a push plate of the push block assembly is aligned to the tail end of an auxiliary conveying channel of the auxiliary conveyor;

all the auxiliary conveyors are sequentially and linearly arranged, the auxiliary conveying channels of all the auxiliary conveyors are sequentially connected, and the starting ends of the auxiliary conveying channels of all the auxiliary conveyors are connected with the tail end of the main conveying channel.

The inclined plate for the lining block to slide down is arranged on the support, which is far away from one side of the corresponding push block assembly, of the main conveyor of the lining block hoisting and conveying device;

an inclined plate for the lining block to slide down is also arranged on the support of the auxiliary conveyor far away from one side of the corresponding push block component.

After the structure is adopted, the lining building blocks can slide to the surface of the slope along the inclined plate, and the lining building blocks are prevented from being damaged due to the fact that the lining building blocks linearly drop to the slope.

The lining block hoisting and conveying device further comprises an unloading assembly and a traction assembly, wherein the unloading assembly comprises an unloading rail and an unloading crane, the unloading rail is fixedly connected to two sides of the width direction of the conveying channel of the main conveyor and the auxiliary conveyor, the direction of the unloading rail is consistent with the direction of the main conveying channel of the main conveyor or the auxiliary conveying channel of the auxiliary conveyor, the lower ends of two sides of the unloading crane are respectively matched with the unloading rail, the upper part of the unloading crane is provided with a guide rail, one end of the guide rail is positioned on the upper side of the main conveying channel or the auxiliary conveying channel, the other end of the guide rail extends out of the width direction of the main conveying channel or the width direction of the auxiliary conveying channel, the guide rail of the unloading crane is matched with an electric hoist;

the traction assembly comprises a bidirectional rope winch and a plurality of pulleys, the pulleys are respectively installed on the side walls of the supports of the main conveyor and the auxiliary conveyor, a steel wire rope of the bidirectional rope winch respectively bypasses the pulleys, the steel wire rope of the bidirectional rope winch is fixed with the unloading crane, and the bidirectional rope winch pulls the unloading crane to reciprocate on the unloading rail.

After the structure is adopted, the lining blocks and the trays for placing the lining blocks are hoisted by the single-arm steering hoisting machine and are placed at the beginning end of the main conveying channel of the main conveyor, the lining blocks are conveyed to the auxiliary conveying channel of the auxiliary conveyor through the main conveyor, the two-way rope hoist of the traction assembly drives the unloading crane to move to the preset position of the slope inclined plane, the lining blocks placed on the auxiliary conveying channel are hoisted by the electric hoist of the unloading crane and the trays for placing the lining blocks, the electric hoist moves to the outer side of the width direction of the auxiliary conveying channel along the guide rail, the electric hoist is started again, the trays and the lining blocks are continuously unloaded, the lining blocks are unloaded to the preset position to be stacked, and the lining blocks on the conveyor are not required to be manually unloaded.

Drawings

Fig. 1 is a schematic structural diagram of a first lining block hoisting and conveying device.

Fig. 2 is a view along direction a of fig. 1.

Fig. 3 is a schematic structural diagram of a second lining block hoisting and conveying device.

Fig. 4 is a schematic structural diagram of a third lining block hoisting and conveying device.

Fig. 5 is a side view of a three-discharging crane of the lining block hoisting and conveying device.

Fig. 6 is a view along direction B of fig. 4.

Detailed Description

Example one

As shown in fig. 1 to 2 (the inclined plates 5 of the main conveyor 2 and the auxiliary conveyor 6 are omitted in fig. 1; the single-arm turn-around sling is omitted in fig. 2, and the lining blocks 8 on the main conveyor 2 and the auxiliary conveyor 6 are also omitted).

The lining block hoisting and conveying device comprises a single-arm steering hoisting machine, a main conveyor 2 and an auxiliary conveyor 6.

The single-arm steering hoisting machine comprises a vertical frame 11, a rotating arm 12, a hoisting machine 13 and a lifting hook 14, wherein the vertical frame 11 is placed on the ground on the upper side of a slope, the horizontal rotating arm 12 is hinged to the vertical frame 11 through a bearing seat, the rotating arm 12 can horizontally swing, the hoisting machine 13 is fixed on one side, far away from the vertical frame 11, of the rotating arm 12, and the lifting hook 14 is fixed at the end part of a steel wire rope of the hoisting machine 13.

The main conveyor 2 adopts a common chain plate type conveyor, the conveyor belt of the main conveyor 2 is a chain plate type conveyor belt, a main conveying channel for conveying lining blocks 8 is formed on the upper side of the main conveyor 2 by the conveyor belt of the main conveyor 2, the starting end of the main conveying channel of the main conveyor 2 is positioned at the lower side of the rotating arm 12, the middle part of the main conveyor 2 is bent to fit with a slope, and the tail end of the main conveying channel of the main conveyor 2 extends to the lower part of the slope.

Two groups of transverse walking components are arranged at the bottom of the main conveyor 2, each transverse walking component comprises a walking crawler 31 and a walking speed reducing motor 32, and the walking speed reducing motors 32 drive the walking crawler 31, so that the walking crawler 31 can transversely walk on the inclined plane of the slope (namely the front and back directions in the drawing).

The main conveyor 2 is also provided with a push block assembly, the push block assembly comprises a bottom plate 41, a push block cylinder 42, a guide rod 43, a guide sleeve 45, a connecting plate 44 and a push plate 46, the bottom plate 41 is welded and fixed with the rear side of the bracket of the main conveyor 2, a cylinder barrel of the push block cylinder 42 is welded on the bottom plate 41, a piston rod of the push block cylinder 42 extends out in the direction (rear side direction) away from the main conveyor, the rear end part of the guide rod 43 is welded and fixed with the end part of the piston rod through the connecting plate 44, the guide sleeve 45 is welded on the bottom plate 41, the axial direction of the guide sleeve 45 is consistent with the moving direction of the piston rod, the guide rod 43 penetrates through the guide sleeve 45 and can reciprocate along the axial direction of the guide sleeve 45, the front end part of the guide rod 43 is welded and fixed with the middle part of the push plate 46, the push plate 46 is aligned with the tail end of a main conveying channel of the, no action takes place while in use.

The support of one side (namely the front side of the main conveyor 2) of the main conveyor 2 far away from the corresponding push block assembly is welded with a sloping plate 5 for the lining block 8 to slide down, and the front end of the sloping plate 5 is contacted with the slope of the slope.

The auxiliary conveyor 6 is also a common chain plate type conveyor, the conveying belt of the auxiliary conveyor 6 is also a chain plate type conveying belt, the conveying belt of the auxiliary conveyor 6 forms an auxiliary conveying channel for conveying lining blocks 8 on the upper side of the auxiliary conveyor 6, a group or a plurality of groups of transverse walking components are arranged at the bottom of the auxiliary conveyor 6, the structure of the transverse walking components mounted on the auxiliary conveyor 6 is the same as that of the transverse walking components mounted on the main conveyor 2, and the use mode is the same as the moving direction of the walking crawler 31.

The auxiliary conveyor 6 is also provided with a push block assembly, the structure of the push block assembly on the auxiliary conveyor 6 is the same as that of the push block assembly of the main conveyor 2, a push plate 46 of the push block assembly is aligned with the tail end of an auxiliary conveying channel of the auxiliary conveyor 6, and the motion track of the push plate 46 is consistent with the direction of the walking crawler 31.

An inclined plate 5 for the lining block 8 to slide down is also welded on the support of one side (namely the front side of the auxiliary conveyor 6) of the auxiliary conveyor 6 far away from the corresponding push block assembly, and the front end of the inclined plate 5 is in contact with the inclined surface of the inclined plane.

The main conveyor 2 and the auxiliary conveyor 6 are arranged in a straight line, and the starting end of the auxiliary conveying channel of the auxiliary conveyor 6 is connected with the tail end of the main conveying channel through a transition guide roller plate 7.

When the lining block lifting device is used, the single-arm steering lifting machine is erected on a flat ground on the upper side of a slope, the main conveyor 2 and the auxiliary conveyor 6 extend into the slope of the slope, the lining block 8 is lifted by the single-arm steering lifting machine and placed at the beginning of a main conveying channel of the main conveyor 2, the lining block 8 is conveyed to the tail end of an auxiliary conveying channel of the auxiliary conveyor 6 through the main conveyor 2, the transition guide roller plate 7 and the auxiliary conveyor 6, a push block assembly on the auxiliary conveyor 6 is started, the push block cylinder 42 drives the guide rod 43 and the push plate 46 to move, the push plate 46 pushes the lining block 8 at the tail end of the auxiliary conveying channel to slide onto the inclined plate 5 and slide to a preset discharging position along the inclined plate 5, and a worker lays the lining block 8 on the slope according to construction requirements.

After the laying operation of one section of lining block 8 is completed, the two groups of transverse traveling assemblies of the main conveyor 2 and the transverse traveling assemblies of the auxiliary conveyor 6 are synchronously started to move the two groups of transverse traveling assemblies in parallel for a plurality of distances, the operation is repeated until the inclined plane of the whole slope is completely laid, and the operation is finished.

Example two

As shown in fig. 3

The present embodiment is different from the first embodiment only in that: the number of the auxiliary conveyors 6 ' is two, the two auxiliary conveyors 6 ' are sequentially arranged in a straight line, the auxiliary conveying channels of the two auxiliary conveyors 6 ' are connected through a transition guide roller plate 7 ', and the starting ends of the auxiliary conveying channels of the two auxiliary conveyors 6 ' are connected with the tail end of the main conveying channel.

Two auxiliary conveyors 6 'or more auxiliary conveyors 6' can adapt to the slope length of different slopes, so that the lining block laying operation is convenient.

EXAMPLE III

As shown in figures 4 to 6 (the single-arm steering sling is omitted in figure 6).

The present embodiment is different from the second embodiment only in that: neither the main conveyor 2 "nor the two auxiliary conveyors 6" are equipped with pusher assemblies, but with the addition of discharge assemblies and traction assemblies.

The vertical frame 11 'of the single-arm steering hoisting machine is directly welded and fixed on a main conveyor 2', the unloading assembly comprises an unloading rail 41 'and an unloading crane 42', the unloading rail 41 'is provided with two long steel columns, the unloading rail 41' is respectively arranged on two sides of the width direction of the conveying channels of the main conveyor 2 'and the auxiliary conveyor 6', the unloading rail 41 'is welded and fixed with the bracket of the main conveyor 2' and the bracket of the auxiliary conveyor 6 ', and the trend of the unloading rail 41' is consistent with that of the main conveying channel of the main conveyor 2 'or the auxiliary conveying channel of the auxiliary conveyor 6';

the lower ends of two sides of the discharging crane 42 ' are respectively provided with four rail wheels 42a ', the four rail wheels 42a ' realize that the discharging crane 42 ' is matched with the discharging rail 41 ', the upper part of the discharging crane 42 ' is provided with a guide rail 42b ', one end of the guide rail 42b ' is positioned on the upper side of the main conveying channel or the auxiliary conveying channel, the other end of the guide rail 42b ' extends out of the width direction of the main conveying channel or the outer side of the width direction of the auxiliary conveying channel, the guide rail 42b ' of the discharging crane 42 ' is matched with an electric hoist 42c ', and the electric hoist 42c ' can reciprocate along.

The traction assembly comprises a bidirectional rope winch 91 'and a plurality of pulleys 92', the pulleys 92 'are respectively installed on the side walls of the main conveyor 2' and the auxiliary conveyor 6 ', the steel wire ropes of the bidirectional rope winch 91' are respectively wound around the pulleys 92 ', the steel wire ropes of the bidirectional rope winch 91' are fixed with the discharging crane 42 ', and the bidirectional rope winch 91' pulls the discharging crane 42 'to reciprocate on the discharging rail 41'.

When the device is used, the lining blocks and the tray for placing the lining blocks are hoisted by the single-arm steering hoisting machine and are placed at the beginning end of the main conveying channel of the main conveyor 2 ', the lining blocks are conveyed to the auxiliary conveying channel of the auxiliary conveyor 6 ' through the main conveyor 2 ' and the transition guide roller plate, the bidirectional rope hoist 91 ' of the traction assembly drives the unloading crane 42 ' to move to the preset position of the inclined slope, the lining blocks placed on the auxiliary conveying channel and the tray for placing the lining blocks are hoisted by the electric hoist 42c ' of the unloading crane 42 ', the electric hoist 42c ' moves to the outer side of the width direction of the auxiliary conveying channel along the guide rail 42b ', the electric hoist 42c is started again, the tray and the lining blocks are continuously unloaded, the lining blocks are unloaded to the preset position to be stacked, and the lining blocks on the conveyor are not required to be manually unloaded.

The foregoing description is only for the three embodiments of the present invention, and it should be noted that, for those skilled in the art, many modifications and improvements can be made without departing from the principle of the present invention, and these should also be considered as belonging to the protection scope of the present invention.

Claims (7)

1. A lining block hoisting and conveying device is characterized in that:

comprises a single-arm steering hoisting machine and a main conveyor;

the single-arm steering hoisting machine comprises a vertical frame, a rotating arm, a winch and a lifting hook, wherein the horizontal rotating arm is hinged to the vertical frame through a bearing seat, the winch is fixed on one side, away from the vertical frame, of the rotating arm, and the lifting hook is fixed at the end part of a steel wire rope of the winch;

the conveyer belt of main conveyer forms the main transfer passage who supplies the lining block transportation at main conveyer upside, and the main transfer passage top of main conveyer is in the swinging boom downside, and the main transfer passage end of main conveyer stretches to the slope bottom, and main conveyer bottom is equipped with a plurality of horizontal walking subassemblies, horizontal walking subassembly includes walking track and walking gear motor, and walking gear motor drive walking track can be at the inclined plane horizontal walking on slope.

2. The lining block hoisting and conveying device according to claim 1, which is characterized in that:

also includes at least one auxiliary conveyor;

the conveyer belt of assisting the conveyer forms the supplementary transfer passage who supplies the lining block transportation at the supplementary conveyer upside, assists the conveyer bottom and is equipped with at least a set of horizontal walking subassembly, horizontal walking subassembly includes walking track and walking gear motor, and walking gear motor drive walking track can transversely walk at the inclined plane on slope.

3. The lining block hoisting and conveying device according to claim 2, which is characterized in that:

a transition guide roller plate is arranged between the tail end of the main conveying channel of the main conveyor and the auxiliary conveying channel of the auxiliary conveyor;

the lining block hoisting and conveying device comprises a plurality of auxiliary conveyors, and a transition guide roller plate is arranged between any two adjacent auxiliary conveyors.

4. The lining block hoisting and conveying device according to claim 3, which is characterized in that:

still be equipped with the ejector pad subassembly on the main conveyer, the ejector pad subassembly includes the bottom plate, the ejector pad cylinder, the guide arm, the uide bushing, connecting plate and push pedal, the support fixed connection of bottom plate and main conveyer, the cylinder fixed connection of ejector pad cylinder is at the bottom plate, the piston rod of ejector pad cylinder stretches out to keeping away from main conveyer direction, it is fixed that guide arm one side tip passes through the connecting plate with the piston rod tip, uide bushing fixed connection is on the bottom plate and the axial direction of uide bushing is unanimous with the trend direction of piston rod, the guide arm runs through the uide bushing and can follow the axial direction reciprocating motion of uide bushing, guide arm opposite side tip and push pedal fixed connection, the main transfer passage end of main conveyer is.

5. The lining block hoisting and conveying device according to claim 4, which is characterized in that:

the auxiliary conveyor is also provided with a push block assembly, and a push plate of the push block assembly is aligned with the tail end of an auxiliary conveying channel of the auxiliary conveyor;

all the auxiliary conveyors are sequentially arranged in a straight line, the auxiliary conveying channels of all the auxiliary conveyors are connected, and the starting ends of the auxiliary conveying channels of all the auxiliary conveyors are connected with the tail end of the main conveying channel.

6. The lining block hoisting and conveying device according to claim 5, which is characterized in that:

an inclined plate for the lining blocks to slide down is arranged on the support of the main conveyor far away from one side corresponding to the push block assembly;

an inclined plate for the lining block to slide down is also arranged on the support of the auxiliary conveyor far away from one side of the corresponding push block component.

7. The lining block hoisting and conveying device according to claim 3, which is characterized in that:

the discharging assembly comprises a discharging rail and a discharging crane, the discharging rail is fixedly connected to two sides of the width direction of the conveying channels of the main conveyor and the auxiliary conveyor, the direction of the discharging rail is consistent with that of the main conveying channel of the main conveyor or the auxiliary conveying channel of the auxiliary conveyor, the lower ends of two sides of the discharging crane are respectively matched with the discharging rail, a guide rail is arranged at the upper part of the discharging crane, one end of the guide rail is positioned on the upper side of the main conveying channel or the auxiliary conveying channel, the other end of the guide rail extends out of the width direction of the main conveying channel or the width direction of the auxiliary conveying channel, the guide rail of the discharging crane is matched with the electric hoist, and the electric hoist can reciprocate along the guide rail;

the traction assembly comprises a bidirectional rope winch and a plurality of pulleys, the pulleys are respectively installed on the side walls of the supports of the main conveyor and the auxiliary conveyor, a steel wire rope of the bidirectional rope winch respectively bypasses the pulleys, the steel wire rope of the bidirectional rope winch is fixed with the unloading crane, and the bidirectional rope winch pulls the unloading crane to reciprocate on the unloading rail.

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