CN215919857U - Positioning clamping device for section bar cutting machine - Google Patents

Abstract

The utility model discloses a positioning and clamping device for a section bar cutting machine, which comprises: the cutting machine comprises a pair of concave transport tables, a cutting table and a cutter, wherein the concave transport tables are respectively arranged on two sides of the cutting table, the cutter is arranged on the top end of the cutting table, a limiting structure is arranged on the cutting table, a fixing structure is arranged on the limiting structure, and a correcting structure is arranged on the concave transport tables; the utility model relates to the technical field of section bar production, which firstly corrects a raw material in a certain range in the horizontal direction through a correcting structure, thereby facilitating the later correcting and fixing effect, and meanwhile, carries out extrusion limit on two sides and the top end of the raw material through a limiting structure, and simultaneously facilitates the extrusion fixing of the side wall and the top end of the raw material through a fixing structure, thereby achieving the effect of extrusion limit of 360 degrees in the vertical direction.

Description

Positioning clamping device for section bar cutting machine

Technical Field

The utility model relates to the technical field of section bar production, in particular to a positioning clamping device for a section bar cutting machine.

Background

Aluminum and its alloy have a series of excellent properties, and in the application of metal materials, the application of aluminum is second to that of steel, and is the second place. Particularly, after world war II, the military industry of aluminum materials turns to the civil industry, and further enters the aspects of people's life, and the aluminum materials become important basic materials for developing national economy and improving the people's physical life and cultural life level. The social demand is rapidly increased, the application field is continuously widened, the existing fixing structures are all fixed by telescopic extrusion from the upper part of the raw materials, the displacement in the horizontal direction is easy to occur, the common horizontal fixing is realized, and the displacement phenomenon occurs due to different sizes of plates.

SUMMERY OF THE UTILITY MODEL

In order to achieve the purpose, the utility model is realized by the following technical scheme: positioning and clamping device for section bar cutting machine comprises: the cutting machine comprises a pair of concave transport tables, a cutting table and a cutter, wherein the concave transport tables are respectively arranged on two sides of the cutting table, the cutter is arranged on the top end of the cutting table, a limiting structure is arranged on the cutting table, a fixing structure is arranged on the limiting structure, and a correcting structure is arranged on the concave transport tables;

the limit structure includes: the device comprises a pair of concave limiting boxes, a plurality of limiting convex rods, a plurality of limiting spring columns, a plurality of limiting balls, a pair of concave transporting blocks, a plurality of transporting rollers and two pairs of transporting motors;

the cutting table is provided with a conveying groove, a pair of concave conveying blocks are arranged on the inner side of the conveying groove, a plurality of conveying rollers are respectively arranged on the pair of concave conveying blocks through bearings, two pairs of conveying motors are respectively arranged on the pair of concave conveying blocks, the driving ends of the two pairs of conveying motors are respectively connected to the two pairs of conveying rollers, a pair of concave limiting boxes are arranged on the cutting table and are respectively sleeved on the pair of concave conveying blocks, a plurality of limiting grooves are respectively arranged on the pair of concave limiting boxes, a plurality of limiting convex rods are respectively movably inserted in the inner sides of the limiting grooves, a plurality of limiting spring columns are respectively arranged on the inner sides of the limiting grooves, and the other ends of the limiting spring columns are respectively connected to the limiting convex rods, the plurality of limiting convex rods are respectively provided with a limiting ball groove, and the plurality of limiting balls are respectively arranged on the inner sides of the plurality of limiting ball grooves.

Preferably, the fixing structure includes: the device comprises three pairs of fixed driving machines, three pairs of fixed driving helical gears, three pairs of fixed transmission helical gears, three pairs of fixed threaded pipes, three pairs of fixed threaded rods, three pairs of extrusion plates and a plurality of convex telescopic rods;

three pairs of fixed driving machines are respectively arranged on the side walls and the top ends of the concave limiting boxes, three pairs of fixed threaded pipes are respectively inserted on the side walls and the top ends of the concave limiting boxes through bearings, three pairs of fixed driving bevel gears are respectively arranged on the driving ends of the three pairs of fixed driving machines, three pairs of fixed transmission bevel gears are respectively arranged on the outer sides of the three pairs of fixed threaded pipes, and three pairs of fixed transmission helical gears are respectively engaged with three pairs of fixed driving helical gears, three pairs of fixed threaded rods are respectively movably inserted at the inner sides of the three pairs of fixed threaded pipes, three pairs of extrusion plates are respectively arranged on the three pairs of fixed threaded rods, a plurality of convex telescopic rods are respectively arranged on the inner side walls and the top ends of the pair of concave limiting boxes, and the other ends of the plurality of convex telescopic rods are respectively connected on the three pairs of extrusion plates.

Preferably, the corrective structure comprises: the device comprises a pair of concave inclined blocks, a plurality of correcting bearing blocks, a plurality of correcting wheels and a plurality of correcting spring columns;

the pair of concave inclined blocks are oppositely arranged on the cutting table, the other ends of the concave inclined blocks are connected to the concave transport table, a plurality of correction grooves are formed in the pair of concave inclined blocks, the plurality of correction bearing blocks are movably inserted into the plurality of correction grooves respectively, the plurality of correction spring columns are arranged on the inner sides of the correction grooves respectively, the other ends of the correction spring columns are connected to the plurality of correction bearing blocks respectively, and the plurality of correction wheels are arranged on the plurality of correction bearing blocks respectively.

Preferably, an infrared locator is arranged on the cutting table.

Preferably, a plurality of speed reducers are arranged on the pair of concave limiting boxes.

Preferably, flexible rubber mats are respectively arranged on the three pairs of the extrusion plates.

Advantageous effects

The utility model provides a positioning clamping device for a section cutting machine. The method has the following beneficial effects: this section bar is location chucking ware for cutting machine carries out the correction of the ascending certain limit in the horizontal direction with the raw materials through correcting the structure earlier to make things convenient for the fixed effect of correction in later stage, later carry out the extrusion on both sides and top to the raw materials through limit structure simultaneously spacingly, thereby make things convenient for fixed knot structure to carry out the extrusion on lateral wall and top to its raw materials fixed simultaneously, thereby reach 360 degrees extrusion spacing effects on the vertical direction.

Drawings

Fig. 1 is a three-dimensional schematic view of a positioning and clamping device for the section cutting machine.

Fig. 2 is a schematic sectional top view of a locator clamp for a profile cutting machine according to the present invention.

Fig. 3 is an enlarged view of a portion "a" in fig. 2.

Fig. 4 is an enlarged view of a portion "B" in fig. 2.

In the figure: 1. a concave transport table; 2. cutting table; 3. a cutter; 4. a concave limiting box; 5. a limiting convex rod; 6. a limiting spring column; 7. a limiting ball; 8. a concave transport block; 9. a transport drum; 10. a transport motor; 11. fixing a driving machine; 12. fixing the driving bevel gear; 13. fixing the transmission helical gear; 14. fixing the threaded pipe; 15. fixing a threaded rod; 16. a pressing plate; 17. a male telescoping pole; 18. a concave tilting block; 19. correcting the bearing block; 20. a correction wheel; 21. and correcting the spring columns.

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, a pair of concave transport tables 1 are respectively arranged on two sides of a cutting table 2, a cutter 3 is arranged on the top end of the cutting table 2, a limiting structure is arranged on the cutting table 2, a fixed structure is arranged on the limiting structure, and a correcting structure is arranged on the pair of concave transport tables 1;

the limit structure includes: a pair of concave limiting boxes 4, a plurality of limiting convex rods 5, a plurality of limiting spring columns 6, a plurality of limiting balls 7, a pair of concave transporting blocks 8, a plurality of transporting rollers 9 and two pairs of transporting motors 10;

the cutting table 2 is provided with a conveying groove, a pair of concave conveying blocks 8 are arranged on the inner side of the conveying groove, a plurality of conveying rollers 9 are respectively arranged on the pair of concave conveying blocks 8 through bearings, two pairs of conveying motors 10 are respectively arranged on the pair of concave conveying blocks 8, the driving ends of the two pairs of conveying motors 10 are respectively connected to the two pairs of conveying rollers 9, a pair of concave limiting boxes 4 are arranged on the cutting table 2, the pair of concave limiting boxes 4 are respectively sleeved on the pair of concave conveying blocks 8, the pair of concave limiting boxes 4 are respectively provided with a plurality of limiting grooves, a plurality of limiting convex rods 5 are respectively movably inserted in the inner sides of the limiting grooves, a plurality of limiting spring columns 6 are respectively arranged on the inner sides of the limiting grooves, and the other ends of the limiting spring columns 6 are respectively connected to the plurality of limiting convex rods 5, the plurality of limiting convex rods 5 are respectively provided with a plurality of limiting ball 7 grooves, and the plurality of limiting balls 7 are respectively arranged on the inner sides of the plurality of limiting ball 7 grooves.

Example 1: the limiting convex rods 5 on the limiting grooves are respectively pushed by the limiting spring columns 6 in the limiting grooves in the concave limiting boxes 4, the limiting convex rods 5 are respectively pushed by the limiting spring columns 6 to extrude towards raw materials on the conveying rollers 9, the position can be adjusted according to different sizes of the raw materials, meanwhile, the raw materials are stretched and limited according to different sizes and shapes by a plurality of limiting balls 7 on the limiting convex rods 5, meanwhile, the conveying rollers 9 on the driving ends of the conveying motors 10 are respectively driven to rotate by the operation of the two pairs of conveying rollers 9, the raw materials on the conveying rollers are driven to operate by the rotation of the two pairs of conveying rollers 9, and meanwhile, the raw materials are conveyed into the concave limiting boxes 4 by the cooperation of the conveying devices on the concave conveying table 1 and are simultaneously driven to rotate by the rotation of the two conveying rollers 9, thereby achieving the effect of transporting the raw materials.

As can be seen from fig. 1-3, the fixing structure comprises: three pairs of fixed driving machines 11, three pairs of fixed driving bevel gears 12, three pairs of fixed transmission bevel gears 13, three pairs of fixed threaded pipes 14, three pairs of fixed threaded rods 15, three pairs of extrusion plates 16 and a plurality of convex expansion links 17;

three pairs of fixed driving machines 11 are respectively arranged on the side wall and the top end of a pair of concave limiting boxes 4, three pairs of fixed threaded pipes 14 are respectively inserted in the side wall and the top end of a pair of concave limiting boxes 4 through bearings, three pairs of fixed driving helical gears 12 are respectively arranged on the driving ends of three pairs of fixed driving machines 11, three pairs of fixed transmission helical gears 13 are respectively arranged on the outer sides of three pairs of fixed threaded pipes 14, the three pairs of fixed transmission helical gears 13 are respectively engaged with the three pairs of fixed driving helical gears 12, three pairs of fixed threaded rods 15 are respectively movably inserted in the inner sides of the three pairs of fixed threaded pipes 14, three pairs of extrusion plates 16 are respectively arranged on the three pairs of fixed threaded rods 15, and a plurality of convex expansion rods 17 are respectively arranged on the inner side wall and the top end of a pair of concave limiting boxes 4, and the other ends of the plurality of convex telescopic rods 17 are respectively connected to the three pairs of extrusion plates 16.

Example 2: the three pairs of fixed driving machines 11 respectively operate to respectively drive the fixed driving helical gears 12 on the driving ends of the three pairs of fixed driving machines 11 to rotate, the three pairs of fixed driving helical gears 12 respectively drive the fixed transmission helical gears 13 engaged with the fixed driving helical gears to rotate, the three pairs of fixed transmission helical gears 13 respectively drive the fixed threaded pipes 14 on the fixed driving helical gears to rotate, the three pairs of fixed threaded pipes 14 respectively drive the fixed threaded rods 15 in the fixed driving helical gears, so that the three pairs of fixed threaded rods 15 respectively move along the three pairs of fixed threaded pipes 14 in a lifting manner, the three pairs of extrusion plates 16 on the fixed threaded rods 15 are respectively driven, the three pairs of extrusion plates 16 are simultaneously limited by the convex telescopic rods 17 on the three pairs of extrusion plates 16, and the three pairs of extrusion plates 16 are used for carrying out telescopic extrusion and fixation on the side wall and the top end of the raw material.

As can be seen from fig. 1-3, the corrective structure comprises: a pair of concave inclined blocks 18, a plurality of straightening bearing blocks 19, a plurality of straightening wheels 20 and a plurality of straightening spring columns 21;

the pair of concave inclined blocks 18 are oppositely arranged on the cutting table 2, the other ends of the pair of concave inclined blocks 18 are connected to the concave transport table 1, a plurality of correction grooves are formed in the pair of concave inclined blocks 18, the plurality of correction bearing blocks 19 are movably inserted into the inner sides of the plurality of correction grooves respectively, the plurality of correction spring columns 21 are arranged on the inner sides of the plurality of correction grooves respectively, the other ends of the plurality of correction spring columns 21 are connected to the plurality of correction bearing blocks 19 respectively, and the plurality of correction wheels 20 are arranged on the plurality of correction bearing blocks 19 respectively.

Example 3: the raw materials on the concave type transport table 1 are corrected through a plurality of correction wheel 20 on a plurality of bearing blocks on a pair of concave type inclined blocks 18, so that the raw materials are corrected and transported to the transport roller 9 on the concave type transport block 8, thereby achieving the correcting effect, and meanwhile, the correction spring column 21 on the correction spring column is respectively pushed through a plurality of correction bearing blocks 19, so that the correction spring column 21 stretches out and draws back, thereby achieving the effect of flexible correction.

Preferably, an infrared locator is further disposed on the cutting table 2.

Preferably, a plurality of speed reducers are arranged on the pair of concave limiting boxes 4.

Preferably, three pairs of the pressing plates 16 are respectively provided with a flexible rubber pad.

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. Positioning and clamping device for section bar cutting machine comprises: the cutting table is provided with a limiting structure, the limiting structure is provided with a fixed structure, and the pair of concave transport tables is provided with a correcting structure;

the limit structure includes: the device comprises a pair of concave limiting boxes, a plurality of limiting convex rods, a plurality of limiting spring columns, a plurality of limiting balls, a pair of concave transporting blocks, a plurality of transporting rollers and two pairs of transporting motors;

the cutting table is provided with a conveying groove, a pair of concave conveying blocks are arranged on the inner side of the conveying groove, a plurality of conveying rollers are respectively arranged on the pair of concave conveying blocks through bearings, two pairs of conveying motors are respectively arranged on the pair of concave conveying blocks, the driving ends of the two pairs of conveying motors are respectively connected to the two pairs of conveying rollers, a pair of concave limiting boxes are arranged on the cutting table and are respectively sleeved on the pair of concave conveying blocks, a plurality of limiting grooves are respectively arranged on the pair of concave limiting boxes, a plurality of limiting convex rods are respectively movably inserted in the inner sides of the limiting grooves, a plurality of limiting spring columns are respectively arranged on the inner sides of the limiting grooves, and the other ends of the limiting spring columns are respectively connected to the limiting convex rods, the plurality of limiting convex rods are respectively provided with a limiting ball groove, and the plurality of limiting balls are respectively arranged on the inner sides of the plurality of limiting ball grooves.

2. The profiling cutting machine locator-fastener according to claim 1, wherein the fixing structure comprises: the device comprises three pairs of fixed driving machines, three pairs of fixed driving helical gears, three pairs of fixed transmission helical gears, three pairs of fixed threaded pipes, three pairs of fixed threaded rods, three pairs of extrusion plates and a plurality of convex telescopic rods;

three pairs of fixed driving machines are respectively arranged on the side walls and the top ends of the concave limiting boxes, three pairs of fixed threaded pipes are respectively inserted on the side walls and the top ends of the concave limiting boxes through bearings, three pairs of fixed driving bevel gears are respectively arranged on the driving ends of the three pairs of fixed driving machines, three pairs of fixed transmission bevel gears are respectively arranged on the outer sides of the three pairs of fixed threaded pipes, and three pairs of fixed transmission helical gears are respectively engaged with three pairs of fixed driving helical gears, three pairs of fixed threaded rods are respectively movably inserted at the inner sides of the three pairs of fixed threaded pipes, three pairs of extrusion plates are respectively arranged on the three pairs of fixed threaded rods, a plurality of convex telescopic rods are respectively arranged on the inner side walls and the top ends of the pair of concave limiting boxes, and the other ends of the plurality of convex telescopic rods are respectively connected on the three pairs of extrusion plates.

3. The profile cutting machine locator-fastener according to claim 1, wherein the corrective structure comprises: the device comprises a pair of concave inclined blocks, a plurality of correcting bearing blocks, a plurality of correcting wheels and a plurality of correcting spring columns;

the pair of concave inclined blocks are oppositely arranged on the cutting table, the other ends of the concave inclined blocks are connected to the concave transport table, a plurality of correction grooves are formed in the pair of concave inclined blocks, the plurality of correction bearing blocks are movably inserted into the plurality of correction grooves respectively, the plurality of correction spring columns are arranged on the inner sides of the correction grooves respectively, the other ends of the correction spring columns are connected to the plurality of correction bearing blocks respectively, and the plurality of correction wheels are arranged on the plurality of correction bearing blocks respectively.

4. The locator clamp for profile cutting machines according to claim 1, wherein an infrared locator is provided on the cutting table.

5. The setting and clamping device for a profile cutting machine according to claim 1, wherein a plurality of reducers are provided on the pair of concave limiting boxes.

6. The locator-binder of claim 2 wherein three pairs of said pressing plates are provided with flexible rubber pads.

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