CN215796526U - Rock wool board combined conveying frame for machining of steel wire mesh frame composite rock wool board - Google Patents

Abstract

The utility model discloses a rock wool board combined conveying frame for processing a steel wire mesh frame composite rock wool board; the combined conveying frame comprises an alignment rail car and a forklift transfer frame; the alignment rail car comprises a guide rail, a support frame matched with the guide rail and a driving mechanism arranged on the support frame and driving the support frame to move on the guide rail; a plurality of supporting rollers are arranged on the supporting frame at intervals; the whole forklift transfer frame is in a U-shaped groove shape, and the bottom of the forklift transfer frame is in a grid shape; the forklift transfer frame is embedded into an interval space formed by the supporting wheels and is supported by the supporting frame, and the supporting surface of the forklift transfer frame is lower than the upper end surfaces of the supporting wheels. The rock wool plate feeding device can improve the operation efficiency in the rock wool plate feeding process, reduce manual output and save human resources.

Description

Rock wool board combined conveying frame for machining of steel wire mesh frame composite rock wool board

Technical Field

The utility model belongs to the technical field of composite rock wool board processing equipment, and particularly relates to a rock wool board combined conveying frame for processing a composite rock wool board of a steel wire net rack.

Background

The composite rock wool board consists of a rock wool board body and a steel wire mesh fixed on the outer side of the rock wool board body and is used for heat preservation of a building outer wall; in the production and processing process, the rock wool boards are vertically arranged and transversely conveyed to the processing equipment. Be equipped with one on the processing equipment and link up a supporting bench and be used for the initial rock wool board body of placing, lift up the rock wool board by the workman usually and place the supporting bench, then process by the processing equipment is automatic behind the horizontal propelling movement certain distance.

Because the rock wool board body is great than the external dimension, needs two staff's cooperation to accomplish, and artifical physical demands is big, and it is low to do efficiently, consequently is necessary to carry out technical transformation to the pay-off link of rock wool board body.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a rock wool board combined conveying frame for processing a composite rock wool board of a steel wire mesh frame aiming at the defects in the prior art; be used for solving the problem that current rock wool board pay-off process manpower work efficiency is low.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model provides a processing of compound rock wool board of wire net rack is with rock wool board combination carriage, includes:

the alignment rail car comprises a guide rail, a support frame matched with the guide rail and a driving mechanism which is arranged on the support frame and drives the support frame to move on the guide rail; a plurality of supporting rollers are arranged on the supporting frame at intervals;

the whole forklift transfer frame is in a U-shaped groove shape, and the bottom of the forklift transfer frame is in a grid shape;

the forklift transfer frame is embedded into an interval space formed by the supporting wheels and supported by the supporting frame, and the supporting surface of the forklift transfer frame is lower than the upper end surfaces of the supporting wheels.

Furthermore, the forklift transfer frame comprises two cargo fork barrels arranged in parallel at intervals, a bottom frame arranged on the cargo fork barrels, a fixed side baffle frame arranged on one side edge of the bottom frame, and a movable side baffle frame detachably arranged on the other side edge of the bottom frame; the fixed side baffle frame and the movable side baffle frame are arranged oppositely.

Furthermore, the movable side baffle frame lower side is equipped with two inserted bars, be equipped with on the underframe with inserted bar complex insert a section of thick bamboo.

Further, the support frame comprises an upper frame and a lower frame which are arranged at intervals up and down, and a support rod connected between the upper frame and the lower frame.

Further, the supporting roller comprises a supporting shaft arranged on the upper side of the upper frame and a plurality of rollers which are hinged on the supporting shaft and distributed at equal intervals.

Further, the driving mechanism comprises a speed reducing motor arranged on the lower frame, wheels arranged on the lower frame and a chain transmission mechanism connected between the speed reducing motor and the wheels.

Further, the outer circumference of the wheel is provided with an annular groove, and the guide rail is matched with the wheel.

The utility model has the beneficial effects that:

the alignment rail car and the forklift transfer frame are combined for application, and the forklift transfer frame is matched with a forklift to realize transfer transportation of the rock wool boards at the fixed unloading points; after conveying, the forklift transfer frame is overlapped on the alignment rail car, the longitudinal supporting surface of the forklift transfer frame is lower than the supporting surface of the alignment rail car, at the moment, the forklift transfer frame realizes lateral positioning on the rock wool boards, the alignment rail car realizes longitudinal supporting on the rock wool boards, each rock wool board can quickly and effectively correspond to the supporting table by utilizing the moving characteristic of the alignment rail car, and a worker can easily realize feeding of the rock wool boards by applying smaller external force for pushing; the automatic feeding device does not need manual carrying, the whole feeding process is high in mechanization degree, feeding is rapid and convenient, and the processing efficiency is effectively improved.

Drawings

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

FIG. 2 is a side view of the structure of FIG. 1;

FIG. 3 is a schematic top view of the upper frame of FIG. 1;

FIG. 4 is a schematic top view of the transfer frame of the forklift of FIG. 1;

fig. 5 is a schematic structural view of the aligned rail car and the forklift truck transfer frame after being matched.

Wherein, 1-aligning the rail car; 2-a forklift transfer frame; 3-a guide track; 4-a support frame; 5-an upper frame; 6-a lower frame; 7-a support bar; 8-supporting rolls; 9-supporting the shaft; 10-rolling a roller; 11-a reduction motor; 12-a wheel; 13-a connecting shaft; 14-a pallet fork drum; 15-bottom frame; 16-fixing side blocking frames; 17-movable side blocking frame.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings.

As shown in fig. 1 to 5, a rock wool board combined conveying frame for processing a steel wire mesh frame composite rock wool board; comprises an alignment rail car 1 and a forklift transfer frame 2; the alignment rail car 1 is used for enabling the rock wool boards to quickly and effectively correspond to a support table of rock wool board processing equipment, so that quick feeding is realized; when the forklift transfer frame 2 is matched with a forklift for use, the rock wool boards are conveyed to a feeding processing area from an unloading point; when fork truck shifts frame 2 and counterpoint rail car 1 cooperation, realize the side direction of rock wool board and support, supplementary rock wool board pay-off operation.

The alignment rail car 1 is arranged on one side of a support table of the rock wool board processing equipment, rollers are arranged on the upper side of the support table and used for promoting the transverse movement of the rock wool board, the height of a support surface of the alignment rail car 1 is equal to that of the support table, and the moving direction of the alignment rail car 1 is perpendicular to the conveying direction of the rock wool board.

The alignment rail car 1 comprises a guide rail 3, a support frame 4 matched with the guide rail 3 and a driving mechanism arranged on the support frame 4 and driving the support frame 4 to move on the guide rail 3. The guide track 3 is used for positioning and realizing a better guiding function; the support frame 4 structurally comprises an upper frame 5 and a lower frame 6 which are arranged at intervals up and down, and a support rod 7 connected between the upper frame 5 and the lower frame 6, wherein the upper frame 5 and the lower frame 6 are in a grid shape structurally; a plurality of supporting rollers 8 are arranged on the upper frame 5 at intervals, and necessary space is formed when the supporting rollers 8 are arranged at intervals, so that the forklift transfer frame 2 can be placed conveniently without interfering the action of the supporting rollers 8; the supporting roller 8 comprises a supporting shaft 9 arranged on the upper side of the upper frame and a plurality of rollers 10 which are hinged on the supporting shaft 9 and are distributed at equal intervals, and the rock wool boards need to be conveyed one by one during processing, so that the rollers 10 are provided with a plurality of rollers, which is favorable for realizing the conveying of the single rock wool boards; the driving mechanism comprises a speed reducing motor 11 arranged on the lower frame 6, wheels 12 arranged on the lower frame 6 and a chain transmission mechanism connected between the speed reducing motor 11 and the wheels 12; the outer circumference of the wheel 12 is provided with an annular groove, and the guide track 3 is matched with the wheel, so that the structural design has good guidance performance and stable position; the wheels 12 are provided with a connecting shaft 13, the two wheels 12 share one connecting shaft 13, and the connecting shaft 13 is hinged on the lower frame 6; the chain transmission mechanism comprises chain wheels arranged on an output shaft of the speed reducing motor 11 and a connecting shaft 13, and a chain connected between the two chain wheels; the speed reducing motor 11 is controlled to start and stop by an external control switch, and the control switch can be arranged at a proper position such as the support rod 7.

The whole forklift transfer frame 2 is in a U-shaped groove shape, and the bottom of the forklift transfer frame is in a grid shape; the U-shaped groove-shaped structure is designed to facilitate transverse pushing of the rock wool plate and realize lateral support; the grid-like structure is for the convenience of cooperating with the alignment trolley 1. Fork truck shifts frame 2 and imbeds in the interval space that backing roll 8 formed and supported by support frame 4, and the holding surface of support frame 4 is less than the holding surface on the backing roll 8, and such structural design can realize the vertical support of backing roll 8, and fork truck shifts frame 2 can realize the side direction and support, need not the workman like this and support. The forklift transfer frame 2 comprises a cargo fork cylinder 14, a bottom frame 15, a fixed side baffle frame 16 and a movable side baffle frame 17; the two fork cylinders 14 are arranged in parallel at intervals and are used for being matched with a forklift for use; the bottom frame 15 is projected to be in a rectangular frame structure and is fixed on the fork tube 14, the fixed side baffle frame 16 is arranged on one side edge of the bottom frame 15, and the movable side baffle frame 17 is detachably arranged on one side of the bottom frame 15 and is arranged opposite to the fixed side baffle frame 16; the detachable connection structure of the movable side baffle frame 17 and the bottom frame 15 is used for facilitating the transportation of the rock wool boards to the forklift transfer frame; the specific detachable connecting structure is that two inserting rods are arranged on the lower side of the movable side baffle frame 17, an inserting cylinder matched with the inserting rods is arranged on the bottom frame, and the structure design is convenient to detach and mount.

The using method and the working process of the utility model are as follows:

when the utility model is used: the fork of the forklift is inserted into the fork barrel 14, and the forklift is carried with the forklift transfer frame 2 to move to a rock wool board storage point; the movable side baffle frame 17 is disassembled, a plurality of rock wool boards are orderly placed on the forklift transfer frame 2, the movable side baffle frame 17 is installed again, and the rock wool boards are vertically and transversely stacked; transporting the rock wool board to a processing area, placing the forklift transfer frame 2 on the alignment rail car 1, and during placement, enabling the cargo fork barrel 17 and the bottom frame 15 to be accommodated in an interval space formed by the supporting rollers 8 of the alignment rail car 1, at the moment, the rock wool board is supported by the supporting rollers 8 and longitudinally separated from the support of the forklift transfer frame 2, and the fixed side baffle frame 16 and the movable side baffle frame 17 of the forklift transfer frame 2 still support the rock wool board in a lateral direction; controlling the speed reducing motor 11 to act, so that the speed reducing motor 11 drives the alignment rail car 1 to move, and one end of the rock wool board corresponds to the support platform; when feeding is needed, the worker pushes the rock wool board to the support table, the pushing is stopped after the processing equipment clamps the rock wool board, and the subsequent processing of the rock wool board is automatically realized by the processing equipment; in the pushing process of the rock wool board, due to the support of the roller 10, the pushing force can be reduced, and the initial operation of workers is facilitated; after the rock wool boards on the forklift transfer frame 2 are completely fed, the forklift transfer frame 2 is unloaded from the alignment rail car 1 by using a forklift, the other forklift transfer frame 2 with the rock wool boards is placed on the alignment rail car 1, and feeding work is continued. In the using process, the manual conveying and loading are not needed, so that the time and the labor are saved; the feeding work can be finished by one worker, so that the labor is saved; the processing efficiency is obviously improved.

Claims (7)

1. The utility model provides a processing of compound rock wool board of wire net frame is with rock wool board combination carriage, its characterized in that includes:

the alignment rail car comprises a guide rail, a support frame matched with the guide rail and a driving mechanism which is arranged on the support frame and drives the support frame to move on the guide rail; a plurality of supporting rollers are arranged on the supporting frame at intervals;

the whole forklift transfer frame is in a U-shaped groove shape, and the bottom of the forklift transfer frame is in a grid shape;

the forklift transfer frame is embedded into an interval space formed by the supporting wheels and supported by the supporting frame, and the supporting surface of the forklift transfer frame is lower than the upper end surfaces of the supporting wheels.

2. The composite rock wool board combined conveying frame for processing the steel wire mesh frame and the composite rock wool board as claimed in claim 1, wherein the forklift transfer frame comprises two cargo fork cylinders which are arranged in parallel at intervals, a bottom frame which is arranged on the cargo fork cylinders, a fixed side baffle frame which is arranged on one side edge of the bottom frame, and a movable side baffle frame which is detachably arranged on the other side edge of the bottom frame; the fixed side baffle frame and the movable side baffle frame are arranged oppositely.

3. The rock wool board combined conveying frame for processing the composite rock wool board of the steel wire mesh frame as claimed in claim 1, wherein two inserting rods are arranged on the lower side of the movable side baffle frame, and an inserting cylinder matched with the inserting rods is arranged on the bottom frame.

4. The composite rock wool board combined conveying frame for the steel wire frame composite rock wool board processing as claimed in claim 1, wherein the supporting frame comprises an upper frame and a lower frame which are arranged at intervals up and down, and a supporting rod connected between the upper frame and the lower frame.

5. The rock wool board combined conveying frame for machining the composite rock wool board of the steel wire mesh frame as claimed in claim 4, wherein the supporting roller comprises a supporting shaft arranged on the upper side of the upper frame and a plurality of rollers hinged to the supporting shaft and arranged at equal intervals.

6. The combined conveying frame for the rock wool boards for the composite steel wire frame and the rock wool boards is characterized in that the driving mechanism comprises a speed reducing motor arranged on the lower frame, wheels arranged on the lower frame and a chain transmission mechanism connected between the speed reducing motor and the wheels.

7. The rock wool board combined conveying frame for machining the steel wire mesh frame composite rock wool board as claimed in claim 6, wherein an annular groove is formed in the outer circumference of the wheel, and the guide rail is matched with the wheel.

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