CN218193770U - Automatic fixing device is used in panel processing - Google Patents

Abstract

The utility model discloses an automatic fixing device is used in panel processing, include: the device comprises a concave processing block, a lifting and conveying mechanism and a lifting and conveying mechanism, wherein the concave processing block is provided with a limiting and supporting structure and a lifting and conveying structure; the utility model relates to a panel processing technology field carries out spacing on the horizontal direction to panel through spacing bearing structure, transports panel through the lift transport structure that can go up and down simultaneously and assists, carries out extrusion spacing on the vertical direction to panel through the vertical correction subassembly simultaneously to reach transportation, spacing and fixed separately operation, thereby reach stable effect.

Description

Automatic fixing device is used in panel processing

Technical Field

The utility model relates to a panel processing technology field specifically is panel processing uses automatic fixing device.

Background

With the continuous development of economy, the use of the plate is particularly wide, and the plate is widely favored because the plate is convenient to process and has certain strength. In the automatic machining process of the plate, the plate is usually cut by intelligent cutting equipment.

In the process of processing the plate, the situation that the position of the plate is not accurate enough and the direction is inclined can occur when people manually place the plate, then the plate is pressed on the surface of a processing table by using a pressing device, then the plate is cut or drilled, and the processing precision of the plate is influenced because the plate is in an inclined state and errors or processing point deviation easily occur in the processing process.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides an automatic fixing device is used in panel processing has solved current partial background technical problem.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: automatic fixing device is used in panel processing includes: the device comprises a concave processing block, a positioning support structure and a lifting and transporting structure, wherein the concave processing block is provided with the positioning support structure and the lifting and transporting structure;

the limiting support structure comprises: the device comprises a plurality of horizontal sliding blocks, a plurality of horizontal slideways, a pair of horizontal concave moving blocks, a plurality of horizontal threaded rods, a plurality of horizontal threaded pipes, a pair of horizontal gear boxes, a pair of horizontal drivers, a plurality of horizontal concave telescopic blocks, a plurality of horizontal auxiliary shafts, a plurality of horizontal sleeved springs, a plurality of extrusion correcting rollers and a vertical correcting component;

the concave processing block is provided with a pair of horizontal telescopic grooves, a plurality of horizontal slideways are respectively and uniformly arranged at the upper end and the lower end of the pair of horizontal telescopic grooves, a plurality of horizontal sliding blocks are respectively arranged at the upper end and the lower end of the pair of horizontal concave moving blocks, a plurality of horizontal sliding blocks are respectively and movably inserted at the inner sides of the horizontal slideways, a plurality of horizontal screwed pipes are respectively inserted on the pair of horizontal telescopic grooves through bearings, a pair of horizontal gear boxes are respectively sleeved on the plurality of horizontal screwed pipes, a plurality of horizontal threaded rods are respectively and movably inserted at the inner sides of the plurality of horizontal screwed pipes, and a plurality of horizontal threaded rods are respectively connected on the pair of horizontal concave moving blocks, the horizontal driving machines are respectively installed on the horizontal gear boxes, a plurality of convex telescopic grooves are respectively formed in the horizontal concave moving blocks, a plurality of horizontal concave telescopic blocks are respectively installed on the horizontal telescopic blocks, a plurality of horizontal telescopic blocks are respectively movably inserted into the inner sides of the convex telescopic grooves, a plurality of horizontal auxiliary shafts are respectively inserted into the convex telescopic grooves and the horizontal telescopic blocks, a plurality of horizontal sleeving springs are respectively sleeved on the horizontal auxiliary shafts, the vertical correcting assemblies are installed on the concave processing blocks, and a plurality of extrusion correcting rollers are respectively installed on the horizontal concave telescopic blocks.

Preferably, the lifting and transporting structure comprises: the lifting and conveying device comprises a toothed lifting and conveying block, a plurality of lifting hydraulic push rods, a plurality of conveying shafts, a plurality of conveying chain wheels, two pairs of conveying chains, two pairs of conveying extrusion rods and a conveying driving machine;

the lifting hydraulic push rod is uniformly installed on the concave processing block, the tooth-mounted lifting transport block is installed on a plurality of the pushing end of the lifting hydraulic push rod, the transport shaft is uniformly installed on the tooth-mounted lifting transport block through a bearing, the transport chain wheels are installed on the transport shaft respectively, the transport chain wheels are installed on the transport shaft in a sleeved mode on the transport chain wheels, the transport extrusion rods are installed on the transport chain wheels respectively, the transport driving machine is installed on the tooth-mounted lifting transport block, and the driving end of the transport driving machine is connected to the transport shaft.

Preferably, the vertical calibration assembly comprises: the device comprises two pairs of vertical gear boxes, two pairs of vertical driving machines, a plurality of vertical extrusion threaded rods, a plurality of vertical extrusion threaded pipes and a plurality of extrusion discs;

the vertical extrusion threaded pipes are respectively inserted in the horizontal concave moving blocks through bearings, the vertical extrusion threaded pipes are respectively positioned between the horizontal telescopic grooves, the vertical extrusion threaded rods are respectively movably inserted in the inner sides of the vertical extrusion threaded pipes, the vertical gear boxes are respectively sleeved on the vertical extrusion threaded pipes, the vertical driving machines are respectively installed on the vertical gear boxes, and the extrusion discs are respectively installed on the vertical extrusion threaded rods.

Preferably, a plurality of circular arc extrusion wheels are respectively arranged on the pair of horizontal concave moving blocks.

Preferably, a pair of the horizontal telescopic slots are respectively provided with an infrared distance meter.

Preferably, a plurality of the extrusion discs are respectively provided with an extrusion rubber mat.

The utility model provides an automatic fixing device is used in panel processing. The method has the following beneficial effects: this automatic fixing device is used in panel processing carries out spacing on the horizontal direction to panel through spacing bearing structure, transports panel supplementary through the lift transport structure that can go up and down simultaneously, carries out extrusion spacing on the vertical direction to panel through the vertical correction subassembly simultaneously to reach transportation, spacing and fixed separately operation, thereby reach stable effect.

Drawings

Fig. 1 is the utility model discloses a panel processing is with automatic fixing device's front view section view schematic diagram.

Fig. 2 is an enlarged view of a portion "a" in fig. 1.

Fig. 3 is an enlarged view of a portion "B" in fig. 1.

In the figure: 1. a concave processing block; 2. a horizontal slider; 3. a horizontal slideway; 4. a horizontal concave moving block; 5. a horizontal threaded rod; 6. a horizontal threaded pipe; 7. a horizontal gear box; 8. a horizontal drive; 9. a horizontal concave telescopic block; 10. horizontally extending and retracting the block; 11. a horizontal auxiliary shaft; 12. horizontally sleeving a spring; 13. the tooth is equipped with a lifting transportation block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

As shown in fig. 1-3, a limiting and supporting structure and a lifting and transporting structure are mounted on the concave processing block 1;

specifically, the limiting support structure includes: the device comprises a plurality of horizontal sliding blocks 2, a plurality of horizontal slideways 3, a pair of horizontal concave moving blocks 4, a plurality of horizontal threaded rods 5, a plurality of horizontal threaded pipes 6, a pair of horizontal gear boxes 7, a pair of horizontal driving machines 8, a plurality of horizontal concave telescopic blocks 9, a plurality of horizontal telescopic blocks 10, a plurality of horizontal auxiliary shafts 11, a plurality of horizontal sleeved springs 12, a plurality of extrusion correcting rollers and a vertical correcting component;

specifically, a pair of horizontal telescopic grooves are formed in the concave processing block 1, a plurality of horizontal slideways 3 are respectively and uniformly installed at the upper end and the lower end of the pair of horizontal telescopic grooves, a plurality of horizontal sliders 2 are respectively installed at the upper end and the lower end of the pair of horizontal concave moving blocks 4, a plurality of horizontal sliders 2 are respectively movably inserted into the inner sides of the plurality of horizontal slideways 3, a plurality of horizontal threaded pipes 6 are respectively inserted into the pair of horizontal telescopic grooves through bearings, a pair of horizontal gear boxes 7 are respectively sleeved on the plurality of horizontal threaded pipes 6, a plurality of horizontal threaded rods 5 are respectively movably inserted into the inner sides of the plurality of horizontal threaded pipes 6, a plurality of horizontal threaded rods 5 are respectively connected to the pair of horizontal concave moving blocks 4, a pair of horizontal drivers 8 are respectively installed on the pair of horizontal gear boxes 7, a plurality of horizontal concave moving blocks 4 are respectively provided with a plurality of horizontal telescopic grooves, a plurality of horizontal concave telescopic blocks 9 are respectively installed on the plurality of horizontal telescopic blocks 10, a plurality of horizontal telescopic blocks 10 are respectively movably inserted into the plurality of horizontal telescopic grooves, a plurality of horizontal telescopic blocks 10 are respectively installed on the horizontal telescopic grooves, a plurality of horizontal telescopic shafts are respectively inserted into the vertical telescopic blocks, and a plurality of vertical telescopic blocks are installed on the plurality of horizontal telescopic blocks, and a plurality of vertical telescopic shafts are installed on the plurality of horizontal telescopic blocks 10, and a plurality of telescopic blocks.

In the above, the operation of the pair of horizontal driving machines 8 drives the horizontal gear boxes 7 on the driving ends of the pair of horizontal driving machines 8 respectively, a plurality of horizontal threaded pipes 6 are respectively driven by a pair of horizontal gear boxes 7, a plurality of horizontal threaded rods 5 are respectively driven by the rotation of the horizontal threaded pipes 6, a plurality of horizontal threaded rods 5 respectively move along the inner sides of a plurality of horizontal threaded pipes 6, a pair of horizontal concave moving blocks 4 on the horizontal threaded rods 5 are respectively driven by the horizontal threaded rods 5, a plurality of horizontal concave bearing blocks are respectively driven by a pair of horizontal concave moving blocks 4, a plurality of horizontal auxiliary shafts 11 at the inner sides of a plurality of convex telescopic slots are respectively driven by a plurality of horizontal concave bearing blocks, a plurality of horizontal extension and retraction blocks 10 are respectively driven by a plurality of horizontal auxiliary shafts 11, the horizontal concave telescopic blocks 9 on the horizontal telescopic blocks 10 are respectively driven by the horizontal telescopic blocks 10, the extrusion correction rollers on the horizontal concave telescopic blocks 9 are respectively driven by the horizontal concave telescopic blocks 9, the plate is flexibly extruded and limited in the vertical direction and the horizontal direction through a plurality of extrusion correction rollers, when the extrusion correction roller respectively drives the horizontal concave telescopic blocks 9 thereon, the horizontal concave telescopic blocks 10 thereon are respectively driven by a plurality of horizontal concave telescopic blocks 9, so that the plurality of horizontal extension and retraction blocks 10 respectively vertically ascend and descend and horizontally extend along the plurality of horizontal auxiliary shafts 11, therefore, the plurality of horizontal sleeved springs 12 are elastically deformed and contracted, the positions of the plurality of horizontal concave telescopic blocks 9 and the plurality of extrusion correction rollers on the horizontal concave telescopic blocks are changed, and the purpose of limiting and correcting the plate is achieved.

Example 2

As shown in fig. 1-3, the lifting and transporting structure comprises: the lifting conveying device comprises a toothed lifting conveying block 13, a plurality of lifting hydraulic push rods, a plurality of conveying shafts, a plurality of conveying chain wheels, two pairs of conveying chains, two pairs of conveying extrusion rods and a conveying driver;

specifically, a plurality of the lift hydraulic push rod even install in on the concave type processing piece 1, tooth dress lift transportation piece 13 is installed in a plurality of on the promotion end of lift hydraulic push rod, a plurality of the transportation axle respectively through the bearing even install in on the tooth dress lift transportation piece 13, a plurality of the transportation sprocket is installed respectively in a plurality of on the transportation axle, two pairs transportation chain suit is in a plurality on the transportation sprocket, two pairs the transportation extrusion pole is installed respectively in two pairs on the transportation chain, the transportation driving machine install in on the tooth dress lift transportation piece 13, just the transportation driving machine drive end connect in on the transportation axle.

It should be noted that, in the foregoing, it is flexible through a plurality of lift hydraulic push rod, it goes up and down to drive tooth dress lift transportation piece 13 on a plurality of lift hydraulic push rod promotion end respectively, it goes up and down to drive a plurality of transportation axle on it through tooth dress lift transportation piece 13, through the operation of transportation driving machine, it is rotatory to drive the transportation axle on the driving end of transportation driving machine, it is rotatory to drive two pairs of transportation sprockets on it through the transportation axle, it is rotatory respectively its transport chain wheel through two pairs of rotatory transportation sprockets, it is rotatory respectively to drive a plurality of transportation sprocket on it through two pairs of transportation chains, it is spacing to carry out two pairs of transportation chains through a plurality of transportation chain wheel, drive its transportation extrusion pole respectively through two pairs of rotatory transportation chains, transport panel through two pairs of transportation extrusion poles, thereby reach and extrude transportation panel.

Example 3

As shown in fig. 1-3, the vertical alignment assembly comprises: the device comprises two pairs of vertical gear boxes, two pairs of vertical driving machines, a plurality of vertical extrusion threaded rods, a plurality of vertical extrusion threaded pipes and a plurality of extrusion discs;

specifically, a plurality of vertical extrusion screwed pipes are respectively inserted into a pair of the horizontal concave moving blocks 4 through bearings, and the plurality of vertical extrusion screwed pipes are respectively positioned between the horizontal telescopic grooves, a plurality of vertical extrusion threaded rods are respectively movably inserted into the inner sides of the plurality of vertical extrusion screwed pipes, two pairs of vertical gear boxes are respectively sleeved on the plurality of vertical extrusion screwed pipes, two pairs of vertical driving machines are respectively installed on the two pairs of vertical gear boxes, and a plurality of extrusion discs are respectively installed on the plurality of vertical extrusion threaded rods.

It should be noted that, among the above-mentioned, through the operation of two pairs of perpendicular driving machines, drive the perpendicular gear box on the drive end of two pairs of perpendicular driving machines respectively, drive a plurality of perpendicular extrusion screwed pipe on it respectively through perpendicular gear box, drive the perpendicular extrusion threaded rod in it respectively through a plurality of perpendicular extrusion screwed pipe, drive the extrusion disc on it respectively through a plurality of perpendicular extrusion threaded rod, it is spacing to extrude at both ends about carrying out panel through a plurality of extrusion disc to the convenience is to the cutting of panel.

Preferably, a plurality of arc-shaped squeezing wheels are respectively arranged on the pair of horizontal concave moving blocks 4.

Preferably, the pair of horizontal telescopic slots are respectively provided with an infrared distance meter.

Preferably, a plurality of the extrusion discs are respectively provided with an extrusion rubber mat.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising" does not exclude the presence of other identical elements in the process, method, article, or apparatus that comprises the same.

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

Claims (6)

1. Automatic fixing device is used in panel processing includes: the concave processing block is characterized in that a limiting and supporting structure and a lifting and transporting structure are arranged on the concave processing block;

the limiting support structure comprises: the device comprises a plurality of horizontal sliding blocks, a plurality of horizontal slideways, a pair of horizontal concave moving blocks, a plurality of horizontal threaded rods, a plurality of horizontal threaded pipes, a pair of horizontal gear boxes, a pair of horizontal driving machines, a plurality of horizontal concave telescopic blocks, a plurality of horizontal auxiliary shafts, a plurality of horizontal sleeved springs, a plurality of extrusion correcting rollers and a vertical correcting component;

the concave processing block is provided with a pair of horizontal telescopic grooves, a plurality of horizontal slideways are respectively and uniformly arranged at the upper end and the lower end of the pair of horizontal telescopic grooves, a plurality of horizontal sliding blocks are respectively arranged at the upper end and the lower end of the pair of horizontal concave moving blocks, a plurality of horizontal sliding blocks are respectively and movably inserted at the inner sides of the horizontal slideways, a plurality of horizontal screwed pipes are respectively inserted on the pair of horizontal telescopic grooves through bearings, a pair of horizontal gear boxes are respectively sleeved on the plurality of horizontal screwed pipes, a plurality of horizontal threaded rods are respectively and movably inserted at the inner sides of the plurality of horizontal screwed pipes, and a plurality of horizontal threaded rods are respectively connected on the pair of horizontal concave moving blocks, the horizontal driving machine is installed on the horizontal gear box, a plurality of convex telescopic grooves are formed in the horizontal concave moving blocks, the horizontal concave telescopic blocks are installed on the horizontal telescopic blocks respectively, the horizontal telescopic blocks are movably inserted into the convex telescopic grooves respectively, the horizontal auxiliary shafts are inserted into the convex telescopic grooves and the horizontal telescopic blocks respectively, the horizontal sleeved springs are sleeved on the horizontal auxiliary shafts respectively, the vertical correcting assembly is installed on the concave processing block, and the extrusion correcting rollers are installed on the horizontal concave telescopic blocks respectively.

2. The automatic fixing device for processing a plate material as claimed in claim 1, wherein the lifting and transporting structure comprises: the lifting and conveying device comprises a toothed lifting and conveying block, a plurality of lifting hydraulic push rods, a plurality of conveying shafts, a plurality of conveying chain wheels, two pairs of conveying chains, two pairs of conveying extrusion rods and a conveying driving machine;

a plurality of the lift hydraulic rod even install in on the concave type processing piece, tooth dress lift transportation piece is installed in a plurality of the promotion of lift hydraulic rod is served, a plurality of the transportation axle respectively through the bearing even install in on the tooth dress lift transportation piece, a plurality of the transportation sprocket is installed respectively in a plurality of transport epaxially, two pairs the transportation chain suit is in a plurality of transport sprocket is last, two pairs the transportation extrusion stem is installed respectively in two pairs on the transportation chain, the transportation driving machine install in on the tooth dress lift transportation piece, just the transportation driving machine drive end connect in transport epaxial.

3. The automatic fixing device for processing a plate material as claimed in claim 2, wherein the vertical aligning member comprises: the device comprises two pairs of vertical gear boxes, two pairs of vertical driving machines, a plurality of vertical extrusion threaded rods, a plurality of vertical extrusion threaded pipes and a plurality of extrusion discs;

the vertical extrusion threaded pipes are respectively inserted in the pair of horizontal concave moving blocks through bearings, the vertical extrusion threaded pipes are respectively positioned between the horizontal telescopic grooves, the vertical extrusion threaded rods are respectively movably inserted in the inner sides of the vertical extrusion threaded pipes, the vertical gear boxes are respectively sleeved on the vertical extrusion threaded pipes, the vertical driving machines are respectively installed on the vertical gear boxes, and the extrusion discs are respectively installed on the vertical extrusion threaded rods.

4. The automatic fixing device for plate processing as claimed in claim 3, wherein a plurality of circular-arc squeezing wheels are respectively provided on the pair of horizontal concave moving blocks.

5. The automatic fixing device for processing a plate material as claimed in claim 4, wherein an infrared distance measuring instrument is provided on each of the pair of horizontal expansion slots.

6. The automatic fixing device for processing a plate material as claimed in claim 5, wherein a plurality of said pressing disks are respectively provided with a pressing rubber mat.

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