CN215919856U - Lifting mechanism applied to section bar processing - Google Patents

Abstract

The utility model discloses a lifting mechanism applied to section bar processing, comprising: the lifting support is arranged on the inner side of the transportation support, the transportation support is arranged on a transportation structure, the lifting support is arranged on a lifting structure, and the lifting structure is arranged on an extrusion transportation structure; the utility model relates to the technical field of section processing, which extrudes a sheet material to move in the horizontal direction through a transportation structure, simultaneously extrudes and fixes the sheet material and other equipment in the horizontal direction through an extrusion transportation structure, and simultaneously transports the sheet material on the extrusion transportation structure in the vertical direction through a lifting structure, thereby achieving the purpose of transporting the sheet material and other equipment without damaging the sheet material and other equipment.

Description

Lifting mechanism applied to section bar processing

Technical Field

The utility model relates to the technical field of section bar processing, in particular to a lifting mechanism applied to section bar processing.

Background

The section cutting machine is suitable for sawing various special-shaped metal materials such as aluminum, aluminum alloy, copper alloy, non-metallic plastic, carbon fiber and the like, and is particularly suitable for sawing aluminum doors and windows, photo frames, plastic steel, bakelite plates, extruded aluminum, paper tubes and sections; the material is sawn by holding the pressing handle, so that the material is not easy to deform and has low loss; the sawing angle is accurate; the vibration is small, and the noise is low; simple operation, high efficiency and capability of sawing one or more than one workpiece together.

The section cutting machine adopts a single-phase alternating current series motor as power, and a metal cutting tool is cut by driving a flat grinding wheel through a transmission mechanism, so that the section cutting machine has the advantages of safety, reliability, low labor intensity, high production efficiency, flat and smooth cut surface and the like, and is widely used for cutting and processing sections such as round steel pipes, special-shaped steel pipes, cast iron pipes, round steel, channel steel, angle steel, flat steel and the like.

In the conventional profile machining machine tool, a conveying plate is usually adopted to convey a profile forward, the conveying height of the profile is relatively fixed, and is difficult to adjust, so that the requirement for machining various types of profiles is difficult.

SUMMERY OF THE UTILITY MODEL

In order to achieve the purpose, the utility model is realized by the following technical scheme: be applied to elevating system of section bar processing, include: the lifting support is arranged on the inner side of the transportation support, the transportation support is arranged on a transportation structure, the lifting support is arranged on a lifting structure, and the lifting structure is arranged on an extrusion transportation structure;

the extrusion transportation structure includes: the device comprises a concave lifting plate, a pair of side wall telescopic drivers, a plurality of side wall extrusion chain wheels, a plurality of side wall extrusion threaded rods, a plurality of side wall extrusion threaded pipes, a pair of side wall chains, a pair of concave telescopic blocks, a plurality of telescopic bearing blocks, a plurality of extrusion side wall shafts, a plurality of side wall extrusion concave wheels, two pairs of side wall extrusion drivers and a plurality of extrusion spring columns;

the concave lifting plate is movably inserted into the inner side of the lifting support, a pair of side wall telescopic drivers are respectively installed on two sides of the concave lifting plate, a plurality of side wall extrusion threaded pipes are inserted into two sides of the concave lifting plate through bearings, a plurality of side wall extrusion threaded rods are respectively movably inserted into the inner sides of the plurality of side wall extrusion threaded pipes, a plurality of side wall extrusion chain wheels are respectively installed on the plurality of side wall extrusion threaded pipes and the driving ends of the pair of side wall telescopic drivers, a pair of side wall chains are respectively sleeved on the outer sides of the plurality of side wall extrusion chain wheels, a pair of concave telescopic blocks are respectively inserted onto the plurality of side wall extrusion threaded rods through bearings, a plurality of telescopic extrusion grooves are respectively formed in the side walls of the pair of concave telescopic blocks, and a plurality of telescopic bearing blocks are respectively movably inserted into the inner sides of the plurality of telescopic extrusion grooves, the extrusion spring columns are respectively installed on the inner sides of the telescopic extrusion grooves and are respectively connected to the plurality of telescopic bearing blocks, the extrusion side wall shafts are respectively installed on the plurality of telescopic bearing blocks, the side wall extrusion concave wheels are respectively installed on the plurality of extrusion side wall shafts, and the side wall extrusion driving machines are respectively installed on the two pairs of extrusion side wall shafts.

Preferably, the lifting structure includes: the hydraulic lifting device comprises two pairs of lifting hydraulic push rods, a plurality of telescopic rods, a hydraulic box, a flow dividing pipe and a liquid pump;

two pairs two liang of parallel mounting in lift support on the bottom, and two pairs lift hydraulic push rod's catch end connect in on the concave type lifter plate, the last protruding type flexible fixed slot of a plurality of, a plurality of seted up of lift support the telescopic link activity cartridge respectively in a plurality of the inboard of protruding type flexible fixed slot, the hydraulic pressure case install in on the lift support, the drawing liquid pump install in on the hydraulic pressure case, the shunt tubes install in on the drawing liquid pump, just the shunt tubes is connected respectively in a plurality of the inboard of protruding type flexible fixed slot.

Preferably, the transportation structure comprises: the conveying device comprises a plurality of conveying shafts, a plurality of conveying chain wheels, a pair of conveying chains, a pair of conveying driving machines and a plurality of conveying sleeve wheels;

the conveying shafts are inserted into two sides of the conveying support through bearings, a pair of conveying driving machines are respectively installed on two sides of the conveying support, a plurality of conveying chain wheels are respectively installed on the driving ends of the conveying shafts and the pair of conveying driving machines, a pair of conveying chains are sleeved on the plurality of conveying chain wheels, and a plurality of conveying sleeve wheels are respectively installed on the plurality of conveying shafts.

Preferably, an infrared positioning instrument is arranged on the transportation bracket.

Preferably, the transportation bracket is provided with two pairs of inclined block drainage plates.

Preferably, the lifting support is provided with a supporting block.

Advantageous effects

The utility model provides a lifting mechanism applied to section bar processing. The method has the following beneficial effects: this be applied to elevating system of section bar processing through the operation of transportation structure on to panel extrusion horizontal direction, carries out extrusion on the horizontal direction to equipment such as panel through extrusion transportation structure simultaneously and fixes, transports the structural panel of extrusion transportation through elevating system simultaneously and carries out the transport on the vertical direction to reach and transport under the condition that does not destroy equipment such as panel.

Drawings

Fig. 1 is a three-dimensional schematic view of a lifting bracket of the lifting mechanism applied to section bar processing.

Fig. 2 is a three-dimensional schematic view of a transportation bracket of the lifting mechanism applied to section bar processing.

Fig. 3 is a front sectional view of the lifting mechanism applied to the section processing in the utility model.

Fig. 4 is a schematic side sectional view of the lifting mechanism applied to profile processing according to the present invention.

In the figure: 1. transporting the support; 2. a lifting support; 3. a concave lifting plate; 4. a side wall telescopic driver; 5. a sidewall extrusion sprocket; 6. extruding the threaded rod on the side wall; 7. extruding the threaded pipe by the side wall; 8. a side wall chain; 9. a concave telescopic block; 10. a telescopic bearing block; 11. extruding the sidewall shaft; 12. the side wall extrudes the concave wheel; 13. a sidewall extrusion driver; 14. extruding the spring post; 15. lifting a hydraulic push rod; 16. a telescopic rod; 17. a hydraulic tank; 18. a shunt tube; 19. and (4) a liquid pump.

Detailed Description

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through a wire, and an appropriate controller and an appropriate encoder should be selected according to actual conditions to meet control requirements, and specific connection and control sequences should be obtained.

According to the attached drawings 1-3, the lifting support 2 is arranged at the inner side of the transportation support 1, the transportation support 1 is arranged on a transportation structure, the lifting support 2 is arranged on a lifting structure, and the lifting structure is arranged on an extrusion transportation structure;

the extrusion transportation structure includes: the device comprises a concave lifting plate 3, a pair of side wall telescopic drivers 4, a plurality of side wall extrusion chain wheels 5, a plurality of side wall extrusion threaded rods 6, a plurality of side wall extrusion threaded pipes 7, a pair of side wall chains 8, a pair of concave telescopic blocks 9, a plurality of telescopic bearing blocks 10, a plurality of extrusion side wall shafts 11, a plurality of side wall extrusion concave wheels 12, two pairs of side wall extrusion drivers 13 and a plurality of extrusion spring columns 14;

the concave lifting plate 3 is movably inserted into the inner side of the lifting support 2, a pair of side wall telescopic drivers 4 are respectively installed at two sides of the concave lifting plate 3, a plurality of side wall extrusion threaded pipes 7 are inserted into two sides of the concave lifting plate 3 through bearings, a plurality of side wall extrusion threaded rods 6 are respectively movably inserted into the inner sides of the plurality of side wall extrusion threaded pipes 7, a plurality of side wall extrusion chain wheels 5 are respectively installed on the plurality of side wall extrusion threaded pipes 7 and the driving ends of the pair of side wall telescopic drivers 4, a pair of side wall chains 8 are respectively sleeved at the outer sides of the plurality of side wall extrusion chain wheels 5, a pair of concave telescopic blocks 9 are respectively inserted into the plurality of side wall extrusion threaded rods 6 through bearings, and a plurality of telescopic extrusion grooves are respectively formed on the side walls of the concave telescopic blocks 9, a plurality of flexible bearing block 10 activity cartridge respectively in a plurality of the inboard in flexible extrusion groove, a plurality of extrusion spring post 14 is installed in a plurality of respectively the inboard in flexible extrusion groove, and a plurality of extrusion spring post 14 is connected respectively in a plurality of on the flexible bearing block 10, a plurality of extrusion lateral wall axle 11 is installed in a plurality of respectively on the flexible bearing block 10, a plurality of lateral wall extrusion concave type wheel 12 is installed in a plurality of respectively on the extrusion lateral wall axle 11, two pairs lateral wall extrusion driving machine 13 is installed respectively in two pairs on the extrusion lateral wall axle 11.

Example 1: the side wall extrusion chain wheels 5 on the driving end of the side wall extrusion driving machine 4 are respectively driven to rotate by a pair of side wall extrusion driving machines 4 on the concave lifting plate 3, the side wall chains 8 on the side wall extrusion driving machines are respectively driven to rotate by the pair of side wall extrusion chain wheels 5, a plurality of side wall extrusion chain wheels 5 on the side wall extrusion driving machines are respectively driven to rotate, the side wall extrusion threaded rods 6 in the side wall extrusion driving machines are respectively driven to rotate by the pair of side wall extrusion chain wheels 8, a pair of concave expansion blocks 9 on the side wall extrusion driving machines are driven by the plurality of side wall extrusion threaded rods 6, so that the pair of concave expansion blocks 9 horizontally move relatively, the plate is horizontally extruded by a plurality of side wall extrusion concave wheels 12 on the concave expansion blocks 9, and the plate is extruded by a plurality of side wall extrusion concave wheels 12, make lateral wall extrusion concave type wheel 12 drive extrusion lateral wall axle 11 on it respectively, drive flexible bearing block 10 on it through extrusion lateral wall axle 11 and move along the flexible extrusion inslot of a plurality of respectively, drive extrusion spring post 14 on it through flexible bearing block 10 of a plurality of respectively simultaneously, through the shrink of a plurality of extrusion spring post 14 for panel or steel pipe carry out the extrusion on the horizontal direction and fix. Meanwhile, the two pairs of side wall extrusion driving machines 13 operate to drive the two pairs of side walls on the machines to extrude the concave wheels 12, thereby achieving the purpose of horizontally transporting the plates and the like.

As can be seen from fig. 1-3, the lifting structure comprises: two pairs of lifting hydraulic push rods 15, a plurality of telescopic rods 16, a hydraulic tank 17, a shunt pipe 18 and a liquid pump 19;

two pairs of two liang of parallel mounting in lift hydraulic push rod 15 on the bottom of lifting support 2, and two pairs lift hydraulic push rod 15's catch end connect in on the concave type lifter plate 3, a plurality of protruding type flexible fixed slot has been seted up on the lift support 2, a plurality of the flexible cartridge of telescopic link 16 activity respectively in a plurality of the inboard of protruding type flexible fixed slot, hydraulic tank 17 install in on the lift support 2, drawing liquid pump 19 install in on the hydraulic tank 17, shunt tubes 18 install in on the drawing liquid pump 19, just shunt tubes 18 connect respectively in a plurality of the inboard of protruding type flexible fixed slot.

Example 2: through two pairs of lift hydraulic push rod 15 flexible, drive concave type lifter plate 3 on two pairs of lift hydraulic push rod 15 promotion ends respectively, through drawing liquid pump 19 on the hydraulic pressure case 17, with the liquid pumping to shunt tubes 18 in the hydraulic pressure case 17, through the shunt tubes 18 with liquid pumping to a plurality of protruding type flexible fixed slot in, through hydraulic pressure extrusion a plurality of telescopic link 16 flexible in the protruding type flexible fixed slot of a plurality of to reach and extrude concave type lifter plate 3 with a plurality of telescopic link 16.

As can be seen from fig. 1-3, the transport structure comprises: the conveying device comprises a plurality of conveying shafts, a plurality of conveying chain wheels, a pair of conveying chains, a pair of conveying driving machines and a plurality of conveying sleeve wheels;

the conveying shafts are inserted into two sides of the conveying support 1 through bearings, a pair of conveying driving machines are respectively installed on two sides of the conveying support 1, a plurality of conveying chain wheels are respectively installed on the driving ends of the conveying shafts and the pair of conveying driving machines, a pair of conveying chains are sleeved on the plurality of conveying chain wheels, and a plurality of conveying sleeve wheels are respectively installed on the plurality of conveying shafts.

Example 3: through the operation of the transportation driving machine, the transportation chain wheel on the driving end of the transportation driving machine is driven to rotate, the transportation chain wheels on the transportation driving machine are driven through the pair of transportation chain wheels respectively, the transportation chain wheels driven through the pair of transportation chain wheels respectively rotate, the transportation shaft driven on the transportation chain wheels respectively rotates through the plurality of transportation chain wheels, the transportation sleeve wheels driven on the transportation shaft through the plurality of rotation rotate respectively rotate, and the transportation sleeve wheels horizontally transport plates.

Preferably, an infrared positioning device is further disposed on the transportation bracket 1.

Preferably, two pairs of sloping block drainage plates are arranged on the transportation bracket 1.

Preferably, the lifting bracket 2 is further provided with a supporting block.

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

Claims (6)

1. Be applied to elevating system of section bar processing, include: the device comprises a transportation bracket and a lifting bracket, and is characterized in that the lifting bracket is arranged on the inner side of the transportation bracket, the transportation bracket is arranged on a transportation structure, the lifting bracket is arranged on a lifting structure, and the lifting structure is arranged on an extrusion transportation structure;

the extrusion transportation structure includes: the device comprises a concave lifting plate, a pair of side wall telescopic drivers, a plurality of side wall extrusion chain wheels, a plurality of side wall extrusion threaded rods, a plurality of side wall extrusion threaded pipes, a pair of side wall chains, a pair of concave telescopic blocks, a plurality of telescopic bearing blocks, a plurality of extrusion side wall shafts, a plurality of side wall extrusion concave wheels, two pairs of side wall extrusion drivers and a plurality of extrusion spring columns;

the concave lifting plate is movably inserted into the inner side of the lifting support, a pair of side wall telescopic drivers are respectively installed on two sides of the concave lifting plate, a plurality of side wall extrusion threaded pipes are inserted into two sides of the concave lifting plate through bearings, a plurality of side wall extrusion threaded rods are respectively movably inserted into the inner sides of the plurality of side wall extrusion threaded pipes, a plurality of side wall extrusion chain wheels are respectively installed on the plurality of side wall extrusion threaded pipes and the driving ends of the pair of side wall telescopic drivers, a pair of side wall chains are respectively sleeved on the outer sides of the plurality of side wall extrusion chain wheels, a pair of concave telescopic blocks are respectively inserted onto the plurality of side wall extrusion threaded rods through bearings, a plurality of telescopic extrusion grooves are respectively formed in the side walls of the pair of concave telescopic blocks, and a plurality of telescopic bearing blocks are respectively movably inserted into the inner sides of the plurality of telescopic extrusion grooves, the extrusion spring columns are respectively installed on the inner sides of the telescopic extrusion grooves and are respectively connected to the plurality of telescopic bearing blocks, the extrusion side wall shafts are respectively installed on the plurality of telescopic bearing blocks, the side wall extrusion concave wheels are respectively installed on the plurality of extrusion side wall shafts, and the side wall extrusion driving machines are respectively installed on the two pairs of extrusion side wall shafts.

2. The lifting mechanism applied to the section bar processing as claimed in claim 1, wherein the lifting mechanism comprises: the hydraulic lifting device comprises two pairs of lifting hydraulic push rods, a plurality of telescopic rods, a hydraulic box, a flow dividing pipe and a liquid pump;

two pairs two liang of parallel mounting in lift support on the bottom, and two pairs lift hydraulic push rod's catch end connect in on the concave type lifter plate, the last protruding type flexible fixed slot of a plurality of, a plurality of seted up of lift support the telescopic link activity cartridge respectively in a plurality of the inboard of protruding type flexible fixed slot, the hydraulic pressure case install in on the lift support, the drawing liquid pump install in on the hydraulic pressure case, the shunt tubes install in on the drawing liquid pump, just the shunt tubes is connected respectively in a plurality of the inboard of protruding type flexible fixed slot.

3. The lifting mechanism applied to the section bar processing as claimed in claim 1, wherein the transportation structure comprises: the conveying device comprises a plurality of conveying shafts, a plurality of conveying chain wheels, a pair of conveying chains, a pair of conveying driving machines and a plurality of conveying sleeve wheels;

the conveying shafts are inserted into two sides of the conveying support through bearings, a pair of conveying driving machines are respectively installed on two sides of the conveying support, a plurality of conveying chain wheels are respectively installed on the driving ends of the conveying shafts and the pair of conveying driving machines, a pair of conveying chains are sleeved on the plurality of conveying chain wheels, and a plurality of conveying sleeve wheels are respectively installed on the plurality of conveying shafts.

4. The lifting mechanism applied to profile machining according to claim 1, wherein an infrared positioning instrument is arranged on the transportation bracket.

5. The lifting mechanism applied to profile machining according to claim 1, wherein two pairs of sloping block flow guide plates are arranged on the transportation bracket.

6. The lifting mechanism applied to profile machining according to claim 1, wherein a supporting block is arranged on the lifting support.

Images