CN219358136U - Sawing machine convenient to fix - Google Patents

Abstract

The utility model discloses a sawing machine convenient to fix, which comprises: the device comprises a cutting table, a pair of conveying brackets, a pair of roller type conveyers, a sawing machine and a pair of cutting fixing brackets, wherein the pair of conveying brackets are respectively arranged on two sides of the cutting table, the pair of roller type conveyers are respectively arranged on the pair of conveying brackets, the sawing machine is arranged on the cutting table, the pair of cutting fixing brackets are respectively arranged on the pair of conveying brackets, and an extrusion correcting structure is arranged on the pair of cutting fixing brackets; the utility model relates to the technical field of sawing machines, and aims to achieve extrusion deceleration limit of raw materials in the vertical direction in the operation process through an extrusion correction structure, and then achieve movable extrusion limit of the raw materials through cooperation of a plurality of correction extrusion wheels through horizontal relative telescopic extrusion, so that the phenomenon of friction damage in the operation process is avoided.

Description

Sawing machine convenient to fix

Technical Field

The utility model relates to the technical field of sawing machines, in particular to a sawing machine convenient to fix.

Background

With the development of modern manufacturing industry towards high efficiency, high precision and economy, sawing machine sawing is used as seven points of finish cutting machining, and has become an important component link in the part machining process. Sawing can save materials, reduce secondary processing amount and improve production efficiency, so sawing machines, particularly automatic sawing machines, are widely applied to the fields of steel, machinery, automobiles, shipbuilding, petroleum, mines, aviation and the like. The sawing machine comprises a sawing machine clamp, the sawing machine clamp comprises a positioning clamp and a feeding clamp, the existing sawing machine positioning clamp generally clamps materials through manual force application, for the positioning clamp of the sawing machine for positioning large materials, the sawing machine is time-consuming and labor-consuming, production efficiency is reduced, industrial injuries are easy to occur, such as ' CN108465872A is a high-efficiency high-speed gantry sawing machine ', and the mentioned ' gantry sawing machine is a huge sawing machine as the name implies, and is mainly applied to cutting of various huge plates and plates. Along with the increasing requirements of people on cutting speed, cutting machines with discs as cutting tools are widely used, and the cutting speed of the disc cutting machines is about 5 times that of the common cutting machines. The conventional gantry sawing machine is usually used for directly placing the plate on the sawing machine for cutting, so that the plate is easy to move in the cutting process, the cutting effect is poor, the defect of the original fixing equipment of the sawing machine in the automatic cutting process is illustrated, and the scheme is generated for the deep research of the problems.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a sawing machine for facilitating fixation, comprising: the device comprises a cutting table, a pair of conveying brackets, a pair of roller type conveyers, a sawing machine and a pair of cutting fixing brackets, wherein the pair of conveying brackets are respectively arranged on two sides of the cutting table, the pair of roller type conveyers are respectively arranged on the pair of conveying brackets, the sawing machine is arranged on the cutting table, the pair of cutting fixing brackets are respectively arranged on the pair of conveying brackets, and an extrusion correcting structure is arranged on the pair of cutting fixing brackets;

the extrusion correcting structure comprises: the device comprises a plurality of concave lifting limiting blocks, a plurality of convex lifting limiting blocks, a plurality of lifting limiting shafts, a plurality of lifting sleeve springs, a plurality of electromagnet blocks, a plurality of magnet blocks, a plurality of resistors, two pairs of tooth-mounted extrusion plates and a horizontal correction assembly;

the device comprises a plurality of concave lifting limiting blocks, a plurality of convex lifting limiting blocks, a plurality of lifting sleeve springs, a plurality of magnet blocks, a plurality of tooth-mounted extrusion plates, a plurality of convex lifting limiting blocks, a plurality of tooth-mounted extrusion plates and a horizontal correction assembly, wherein the concave lifting limiting blocks are respectively arranged on a pair of conveying brackets and a pair of cutting fixing brackets, the convex lifting limiting blocks are respectively movably inserted on the inner sides of the concave lifting limiting blocks, the lifting limiting shafts are respectively inserted on the concave lifting limiting blocks and the convex lifting limiting blocks, the lifting sleeve springs are respectively sleeved on the lifting limiting shafts, the magnet blocks are respectively arranged on the inner sides of the concave lifting limiting blocks, the magnet blocks are respectively arranged on the convex lifting limiting blocks, the resistors are respectively arranged on the magnet blocks, the tooth-mounted extrusion plates are arranged on the convex lifting limiting blocks, and the horizontal correction assembly is arranged on the tooth-mounted extrusion plates;

it should be noted that, in the above-mentioned, through the operation of the roller conveyor on the transportation support, drive the raw materials on it and carry out stable transportation, control the electric current on the electromagnet block through the resistor, make the electromagnet block produce magnetism, the electromagnet block magnetism is repelled the magnet block, drive the ascending and descending of protruding type lift stopper on it through the magnet block and carry out ascending and descending on the vertical direction, make protruding type lift stopper go up and down along the inboard of concave type lift stopper, thereby reach stable spacing, drive the tooth dress stripper plate on it through a plurality of protruding type lift stopper simultaneously, thereby reach and carry out the ascending extrusion spacing of vertical direction with the raw materials, thereby reach and carry out the ascending extrusion of vertical direction with the raw materials fixedly, simultaneously carry out the activity spacing to a plurality of protruding type lift stopper through a plurality of lift spacing axle and a plurality of lift suit spring.

Preferably, the horizontal correction assembly comprises: the device comprises a pair of M-shaped limiting blocks, a pair of tooth-mounted extrusion correction blocks, four pairs of horizontal hydraulic push rods and a plurality of correction extrusion wheels;

the pair of M-shaped limiting blocks are respectively arranged on the pair of tooth-mounted extrusion plates, the pair of tooth-mounted extrusion correction blocks are respectively movably inserted into the inner sides of the pair of tooth-mounted extrusion plates, the four pairs of horizontal hydraulic push rods are respectively arranged on the pair of conveying brackets and the pair of cutting fixing brackets in a pairwise parallel manner, the pushing ends of the four pairs of horizontal hydraulic push rods are respectively connected to the pair of tooth-mounted extrusion correction blocks, wheel grooves are respectively formed in the pair of tooth-mounted extrusion vertical blocks and the pair of M-shaped limiting blocks, and a plurality of correction extrusion wheels are respectively arranged on the inner sides of a plurality of wheel grooves;

it should be noted that, in the above, through four pairs of horizontal hydraulic push rods flexible, tooth dress extrusion correction piece on it is driven for tooth dress extrusion correction piece is along the inboard horizontal flexible extrusion in gap of tooth dress stripper plate, thereby reach and extrude the raw materials to the M type stopper on, thereby reach and carry out the extrusion spacing on the horizontal direction with the raw materials, thereby reach and carry out the relative extrusion spacing of relative flexible extrusion spacing on the vertical direction with the raw materials and carry out the horizontal relative extrusion spacing on the horizontal direction, carry out the activity spacing to the raw materials through a plurality of correction extrusion wheel.

Preferably, the cutting table and the pair of transport brackets are respectively provided with an infrared scanner.

Preferably, a pair of the tooth-mounted extrusion correction blocks are provided with pressure sensors.

Preferably, a pair of the cutting fixing brackets are respectively provided with a limiting fan.

Preferably, the pair of limiting fans are respectively provided with an angle sensor.

Advantageous effects

The utility model provides a sawing machine convenient to fix. The beneficial effects are as follows: this sawing machine convenient to it is fixed thereby to carry out the extrusion speed reduction spacing of vertical direction with the raw materials of operation in-process through extrusion correction structure, later through the relative flexible extrusion of level, through the cooperation of a plurality of correction extrusion wheel to reach and carry out movable extrusion spacing with the raw materials, avoided the phenomenon that the friction damaged appears in the operation in-process.

Drawings

Fig. 1 is a schematic front cross-sectional view of a sawing machine for facilitating fixation according to the present utility model.

Fig. 2 is a schematic top cross-sectional view of a sawing machine for facilitating fixation according to the present utility model.

In the figure: 1. a cutting table; 2. a transport rack; 3. a roller conveyor; 4. sawing machine; 5. cutting the fixed support; 6. concave lifting limiting block; 7. a convex lifting limiting block; 8. a lifting limiting shaft; 9. lifting and sleeving a spring; 10. an electromagnet block; 11. a magnet block; 12. a resistor; 13. tooth-mounted extrusion plates; 14. an M-shaped limiting block; 15. tooth-mounted extrusion correction block; 16. a horizontal hydraulic push rod.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.

Examples

The present utility model will be described in detail with reference to the accompanying drawings, as shown in fig. 1-2, a sawing machine 4 for facilitating fixation, comprising: a cutting table 1, a pair of conveying brackets 2, a pair of roller-type conveyers 3, a sawing machine 4 and a pair of cutting fixing brackets 5, wherein the pair of conveying brackets 2 are respectively arranged on two sides of the cutting table 1, the pair of roller-type conveyers 3 are respectively arranged on the pair of conveying brackets 2, the sawing machine 4 is arranged on the cutting table 1, the pair of cutting fixing brackets 5 are respectively arranged on the pair of conveying brackets 2, and an extrusion correcting structure is arranged on the pair of cutting fixing brackets 5; the extrusion correcting structure comprises: the device comprises a plurality of concave lifting limiting blocks 6, a plurality of convex lifting limiting blocks 7, a plurality of lifting limiting shafts 8, a plurality of lifting sleeve springs 9, a plurality of electromagnet blocks 10, a plurality of magnet blocks 11, a plurality of resistors 12, two pairs of tooth-mounted squeeze plates 13 and a horizontal correction assembly; the plurality of concave lifting limiting blocks 6 are respectively arranged on the pair of conveying brackets 2 and the pair of cutting fixing brackets 5, the plurality of convex lifting limiting blocks 7 are respectively movably inserted into the inner sides of the plurality of concave lifting limiting blocks 6, the plurality of lifting limiting shafts 8 are respectively inserted into the plurality of concave lifting limiting blocks 6 and the plurality of convex lifting limiting blocks 7, the plurality of lifting sleeve springs 9 are respectively sleeved on the plurality of lifting limiting shafts 8, the plurality of electromagnet blocks 10 are respectively arranged on the inner sides of the plurality of concave lifting limiting blocks 6, the plurality of magnet blocks 11 are respectively arranged on the plurality of convex lifting limiting blocks 7, the plurality of resistors 12 are respectively arranged on the plurality of electromagnet blocks 10, the two pairs of tooth-mounted extruding plates 13 are arranged on the plurality of convex lifting limiting blocks 7, and the horizontal correcting assembly is arranged on the two pairs of tooth-mounted extruding plates 13; the horizontal correction component comprises: a pair of M-shaped limiting blocks 14, a pair of tooth-mounted extrusion correction blocks 15, four pairs of horizontal hydraulic push rods 16 and a plurality of correction extrusion wheels; the pair of M-shaped limiting blocks 14 are respectively arranged on the pair of tooth-mounted extrusion plates 13, the pair of tooth-mounted extrusion correction blocks 15 are respectively movably inserted into the inner sides of the pair of tooth-mounted extrusion plates 13, the four pairs of horizontal hydraulic pushing rods 16 are respectively arranged on the pair of conveying brackets 2 and the pair of cutting fixing brackets 5 in a pairwise parallel manner, the pushing ends of the four pairs of horizontal hydraulic pushing rods 16 are respectively connected to the pair of tooth-mounted extrusion correction blocks 15, the pair of tooth-mounted extrusion vertical blocks and the pair of M-shaped limiting blocks 14 are respectively provided with a wheel groove, and a plurality of correction extrusion wheels are respectively arranged on the inner sides of a plurality of wheel grooves; the cutting table 1 and the pair of the conveying brackets 2 are respectively provided with an infrared scanner; a pair of tooth-mounted extrusion correction blocks 15 are provided with pressure sensors; limiting fans are respectively arranged on the pair of cutting fixing brackets 5; the pair of limit fans are respectively provided with an angle sensor

According to the drawing 1-2, the roller conveyor 3 on the conveying support 2 operates to drive the raw materials on the conveyor to be stably conveyed, the resistor 12 is used for controlling the current on the electromagnet 10, the electromagnet 10 generates magnetism, the electromagnet 10 magnetically repels the electromagnet 11, the electromagnet 11 drives the convex lifting limiting block 7 on the electromagnet to vertically lift, the convex lifting limiting block 7 is lifted along the inner side of the concave lifting limiting block 6, so that the stable limiting is achieved, the convex lifting limiting block 7 drives the toothed pressing plate 13 on the convex lifting limiting block, the raw materials are extruded and limited in the vertical direction, the raw materials are extruded and fixed in the vertical direction, the lifting limiting shafts 8 and the lifting sleeve springs 9 are used for movably limiting the convex lifting limiting blocks 7, the toothed lifting limiting blocks 15 are driven to horizontally stretch and shrink along the inner side of the gaps of the toothed pressing plate 13 through four pairs of horizontal pushing rods 16, the raw materials are extruded and limited in the M-shaped limiting block 6, the raw materials are extruded and limited in the horizontal direction, and the raw materials are extruded and limited in the horizontal direction relatively horizontal direction, and the raw materials are extruded and limited in the horizontal direction.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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. A sawing machine for facilitating fixation, comprising: the cutting machine is characterized in that the pair of conveying brackets are respectively arranged on two sides of the cutting table, the pair of roller-type conveyers are respectively arranged on the pair of conveying brackets, the sawing machine is arranged on the cutting table, the pair of cutting fixing brackets are respectively arranged on the pair of conveying brackets, and the pair of cutting fixing brackets are provided with an extrusion correcting structure;

the extrusion correcting structure comprises: the device comprises a plurality of concave lifting limiting blocks, a plurality of convex lifting limiting blocks, a plurality of lifting limiting shafts, a plurality of lifting sleeve springs, a plurality of electromagnet blocks, a plurality of magnet blocks, a plurality of resistors, two pairs of tooth-mounted extrusion plates and a horizontal correction assembly;

the device comprises a plurality of concave lifting limiting blocks, a plurality of convex lifting limiting blocks, a plurality of lifting sleeve springs, a plurality of magnet blocks, a plurality of convex lifting limiting blocks, a plurality of tooth-mounted extrusion plates and a horizontal correction assembly, wherein the concave lifting limiting blocks are respectively arranged on a pair of conveying supports and a pair of cutting fixing supports, the convex lifting limiting blocks are respectively movably inserted on the inner sides of the concave lifting limiting blocks, the lifting limiting shafts are respectively inserted on the concave lifting limiting blocks and the convex lifting limiting blocks, the lifting sleeve springs are respectively sleeved on the lifting limiting shafts, the magnet blocks are respectively arranged on the inner sides of the concave lifting limiting blocks, the magnet blocks are respectively arranged on the convex lifting limiting blocks, the resistors are respectively arranged on the magnet blocks, the tooth-mounted extrusion plates are arranged on the convex lifting limiting blocks, and the horizontal correction assembly is arranged on the tooth-mounted extrusion plates.

2. A sawing machine for facilitating fixation according to claim 1, wherein said horizontal correction unit comprises: the device comprises a pair of M-shaped limiting blocks, a pair of tooth-mounted extrusion correction blocks, four pairs of horizontal hydraulic push rods and a plurality of correction extrusion wheels;

the pair of M-shaped limiting blocks are respectively arranged on the pair of tooth-mounted extruding plates, the pair of tooth-mounted extruding correcting blocks are respectively movably inserted into the pair of tooth-mounted extruding plates, the four pairs of horizontal hydraulic pushing rods are respectively arranged on the pair of conveying brackets and the pair of cutting fixing brackets in a pairwise parallel manner, the pushing ends of the four pairs of horizontal hydraulic pushing rods are respectively connected to the pair of tooth-mounted extruding correcting blocks, the pair of tooth-mounted extruding vertical blocks and the pair of M-shaped limiting blocks are respectively provided with wheel grooves, and a plurality of correcting extruding wheels are respectively arranged on the inner sides of the wheel grooves.

3. A sawing machine for facilitating fixation according to claim 2, wherein the cutting table and the pair of transport holders are provided with an infrared scanner, respectively.

4. A sawing machine for facilitating fixation according to claim 3, wherein a pair of said tooth mounted compression correction blocks are provided with pressure sensors.

5. A sawing machine convenient to fix according to claim 4, wherein a pair of said cutting fixing brackets are provided with limiting fans, respectively.

6. A sawing machine convenient to fix according to claim 5, wherein a pair of said limit fans are provided with angle sensors, respectively.