CN219153349U - Glass positioning mechanism for high-pressure water cutting machine - Google Patents

Abstract

The utility model discloses a glass positioning mechanism for a high-pressure water cutting machine, which comprises the following components: the device comprises a concave supporting table, a longitudinal and transverse screw rod module, a high-pressure cutting knife and a processing bracket, wherein the processing bracket is arranged on the concave supporting table, a glass fixing structure is arranged on the concave supporting table, the longitudinal and transverse screw rod module is arranged on the processing bracket, and the high-pressure cutting knife is arranged on the moving end of the longitudinal and transverse screw rod module; the utility model relates to the technical field of glass processing, which comprises the steps of firstly extruding and fixing side walls of glass through a glass fixing structure, so that the side walls are extruded and fixed according to different glass sizes, and then extruding and fixing a glass plate through an extruding and fixing assembly.

Description

Glass positioning mechanism for high-pressure water cutting machine

Technical Field

The utility model relates to the technical field of glass processing, in particular to a glass positioning mechanism for a high-pressure water cutting machine.

Background

Water cutting is a cold state cutting technique based on ultra-high pressure water jet applications. The water cutting principle is to pressurize common tap water to 100-400 Mpa pressure by using ultra-high pressure technology, then spray the tap water to form high-speed jet flow with the speed of about 800-1000 m/s through a jewel nozzle with the inner hole diameter of about 0.3mm, which is commonly called a water rocket with high energy and can be used for cutting soft base materials. If a proper amount of abrasive such as carborundum is added into the water arrow, the water arrow can be used for cutting almost all soft and hard materials. When cutting glass holes or rims with a water cutting machine, a spacer is required to support the glass, and the spacer is placed in a water tank filled with water.

The existing locating rack is a metal bracket immersed in water, the metal bracket is placed on a supporting seat in a water tank, and a plastic plate with the thickness of 10-20 mm is placed above the metal bracket, so that a glass supporting surface is formed. The emery and other sediments in the water tank need to be cleaned regularly, and the existing locating frame is of an integral structure, so that time and labor are wasted during cleaning, and in view of the problems, intensive researches are conducted, and the locating frame is generated.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a glass positioning mechanism for a high pressure water cutting machine, comprising: the device comprises a concave supporting table, a longitudinal and transverse screw rod module, a high-pressure cutting knife and a processing bracket, wherein the processing bracket is arranged on the concave supporting table, a glass fixing structure is arranged on the concave supporting table, the longitudinal and transverse screw rod module is arranged on the processing bracket, and the high-pressure cutting knife is arranged on the moving end of the longitudinal and transverse screw rod module;

the glass fixing structure comprises: the device comprises a lifting support plate, two pairs of lifting hydraulic push rods, a pair of concave large-size telescopic blocks, a pair of concave small-size telescopic blocks, two pairs of square limiting blocks, four pairs of horizontal telescopic sliding ways, a plurality of limiting shafts, a plurality of limiting sleeve springs, a plurality of magnet blocks, two pairs of flexible rubber mats and an extrusion fixing assembly;

the two pairs of lifting hydraulic push rods are installed in pairs on the inner sides of the concave supporting tables in parallel, the lifting supporting plates are installed on the pushing ends of the two pairs of lifting hydraulic push rods, a pair of horizontal telescopic correction grooves are formed in the concave large-size telescopic blocks respectively, two pairs of return-shaped limiting blocks are installed on the concave small-size telescopic blocks respectively, the two pairs of return-shaped limiting blocks are movably inserted on the inner sides of the two pairs of horizontal telescopic correction grooves respectively, four pairs of horizontal telescopic slide ways are installed on the inner sides of the two pairs of horizontal telescopic correction grooves respectively, four pairs of horizontal telescopic slide blocks are installed on the two pairs of return-shaped limiting blocks respectively, the four pairs of horizontal telescopic slide blocks are movably inserted on the inner sides of the four pairs of horizontal telescopic slide ways respectively, a plurality of limiting shafts are inserted on the inner sides of the concave large-size telescopic blocks and the concave small-size telescopic blocks respectively, a plurality of return-shaped limiting shafts are sleeved on the concave small-size telescopic blocks respectively, a plurality of pairs of concave small-size telescopic blocks are installed on the concave small-size telescopic blocks respectively, a plurality of pairs of concave large-size telescopic blocks are installed on the concave large-size telescopic blocks respectively, and the pair of small-size telescopic blocks are installed on the concave small-size telescopic blocks respectively, and the pair of small-size telescopic blocks are installed on the concave large-size telescopic blocks respectively, and the pair of the concave telescopic blocks are fixedly sleeved on the concave-size telescopic blocks respectively, and the concave-size telescopic blocks are installed on the concave-type large-size telescopic blocks respectively, and the concave-type sides.

Preferably, the extrusion fixing assembly comprises: four pairs of extrusion toothed fixed blocks, a plurality of extrusion telescopic shafts, a plurality of extrusion sleeve springs, four pairs of extrusion fixed magnet blocks and four pairs of extrusion fixed electromagnets;

a pair of concave large-size flexible piece and a pair of concave small-size flexible piece are last to have seted up respectively a pair of dentate lift groove, four pairs extrusion dentate fixed block respectively movable cartridge in four pairs the inboard in dentate lift groove, a plurality of extrusion telescopic shaft respectively cartridge in four pairs the inboard in dentate lift groove, and a plurality of extrusion telescopic shaft respectively cartridge in four pairs extrusion dentate fixed block is last, a plurality of extrusion suit spring respectively suit in a plurality of extrusion telescopic shaft is last, four pairs extrusion fixed magnet piece is installed respectively in four pairs on the extrusion dentate fixed block, four pairs extrusion fixed electromagnet is installed respectively in four pairs the inboard in dentate lift groove.

Preferably, a plurality of extrusion rubber pads are respectively arranged on the four pairs of extrusion toothed fixed blocks.

Preferably, a plurality of ball grooves are formed in the lifting support plate, and support balls are respectively arranged on the inner sides of the ball grooves.

Preferably, a high-pressure inflator pump is arranged on the concave supporting table, and a high-pressure drainage tube is arranged on the high-pressure inflator pump.

Preferably, two pairs of flexible rubber mats and a plurality of extrusion rubber mats are respectively provided with a pressure sensor.

Advantageous effects

The utility model provides a glass positioning mechanism for a high-pressure water cutting machine. The beneficial effects are as follows: this glass positioning mechanism for high-pressure water cutting machine carries out the lateral wall with glass earlier through glass fixed knot constructs and extrudees fixedly to make up into the size of active control well form extrusion, thereby reach and carry out the lateral wall according to different glass sizes and extrude fixedly, thereby later extrude fixed subassembly with the glass board.

Drawings

Fig. 1 is a schematic front view in cross section of a glass positioning mechanism for a high-pressure water cutting machine according to the present utility model.

Fig. 2 is a schematic side view in cross section of a glass positioning mechanism for a high-pressure water cutting machine according to the present utility model.

In the figure: 1. a concave supporting table; 2. a longitudinal and transverse screw module; 3. a high-pressure cutting knife; 4. processing a bracket; 5. lifting the supporting plate; 6. lifting the hydraulic push rod; 7. concave large-size telescopic blocks; 8. concave small-sized telescopic blocks; 9. a loop-shaped limiting block; 10. a horizontal telescopic slide block; 11. a horizontal telescopic slideway; 12. a limiting shaft; 13. a spring is sleeved at the limit; 14. a magnet block; 15. an electromagnet block; 16. a flexible rubber pad; 17. extruding the toothed fixed block; 18. extruding the telescopic shaft; 19. extruding the sleeved spring; 20. extruding and fixing the magnet block; 21. and (5) extruding and fixing the electromagnet.

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

As shown in fig. 1-2, the processing bracket 4 is mounted on the concave supporting table 1, a glass fixing structure is mounted on the concave supporting table 1, the vertical and horizontal screw module 2 is mounted on the processing bracket 4, and the high-pressure cutting knife 3 is mounted on the moving end of the vertical and horizontal screw module 2;

specifically, the glass fixing structure comprises: the lifting support plate 5, two pairs of lifting hydraulic push rods 6, a pair of concave large-size telescopic blocks 7, a pair of concave small-size telescopic blocks 8, two pairs of square limiting blocks 9, four pairs of horizontal telescopic sliding blocks 10, four pairs of horizontal telescopic sliding ways 11, a plurality of limiting shafts 12, a plurality of limiting sleeve springs 13, a plurality of magnet blocks 14, two pairs of magnet blocks 15, two pairs of flexible rubber mats 16 and an extrusion fixing assembly;

specifically, two pairs of lift hydraulic push rods 6 are pairwise parallel to be installed in the inboard of concave type brace table 1, lift backup pad 5 installs in two pairs on the promotion end of lift hydraulic push rods 6, a pair of horizontal telescopic correction groove has been seted up respectively on the big flexible piece of concave type 7, two pairs of return shape stopper 9 install respectively in a pair of on the small flexible piece of concave type, and two pairs of return shape stopper 9 movable cartridge respectively in two pairs of the inboard of horizontal telescopic correction groove, four pairs of horizontal telescopic slide 11 install respectively in two pairs of the inboard of horizontal telescopic correction groove, four pairs of horizontal telescopic slide 10 install respectively in two pairs of return shape stopper 9, and four pairs of horizontal telescopic slide 10 movable cartridge respectively in the inboard of four pairs of horizontal telescopic slide 11, a plurality of spacing shaft 12 become well-like cartridge respectively in the inboard of concave type brace table 1, and a plurality of spacing shaft 12 movable cartridge respectively in a pair of big flexible piece of concave type 7 and a pair of small flexible piece 8 in the concave type 8 on the small flexible piece of concave type 8 on the large flexible piece of concave type 7 and a pair of 8 the small flexible piece of concave type 8 a plurality of small flexible piece of 8 are installed respectively in the small flexible piece of concave type 8 on the large flexible piece of 8.

It should be noted that, in the above, through two pairs of lift hydraulic push rods 6 flexible, drive two pairs of lift hydraulic push rods 6 lift backup pad 5 on the promotion end, support glass through lift backup pad 5, pass through two pairs of electromagnet blocks 15 circular telegram, make two pairs of electromagnet blocks 15 produce magnetism, reject or attract a plurality of magnet blocks 14 through two pairs of electromagnet blocks 15 magnetism respectively, a pair of large-size retractable block 7 of concave type and a pair of small-size retractable block 8 are driven respectively to a plurality of magnet blocks 14 and are carried out magnetic adsorption or repulse, simultaneously drive two pairs of round shape stopper 9 on it through a pair of small-size retractable block 8 respectively, drive four pairs of horizontal retractable slide 10 on it and the inboard four pairs of horizontal retractable slide 11 of a pair of large-size retractable block 7 respectively through two pairs of round shape stopper 9, thereby reach a pair of small-size retractable block 7 and a pair of small-size retractable block 8's well form is flexible, thereby reach a pair of small-size retractable block 8 can carry out magnetism absorption or rejection at a pair of large-size retractable block 7 of inside flexible large-size retractable block 7 and a pair of small-size retractable block 8, thereby reach a pair of small-size retractable block 8 and reach the recess type and press the expansion slide 11 to reach the recess type with a pair of large-size retractable block 8 and carry out the expansion slide 11 through a pair of large-size retractable slide 11 to the large-size retractable block 7 of small-size retractable block 8, and reach a pair of small-size retractable block 8 and reach the expansion slide plate of small-size flexible small-size 8 and a pair of small-size retractable block 8.

As shown in fig. 1-2, the compression fixation assembly comprises: four pairs of extrusion toothed fixed blocks 17, a plurality of extrusion telescopic shafts 18, a plurality of extrusion sleeve springs 19, four pairs of extrusion fixed magnet blocks 20 and four pairs of extrusion fixed electromagnets 21;

specifically, a pair of concave large-size telescopic blocks 7 and a pair of concave small-size telescopic blocks 8 are respectively provided with a pair of toothed lifting grooves, four pairs of extrusion toothed fixed blocks 17 are respectively movably inserted into the inner sides of the four pairs of toothed lifting grooves, a plurality of extrusion telescopic shafts 18 are respectively inserted into the four pairs of extrusion toothed fixed blocks 17, a plurality of extrusion sleeve springs 19 are respectively sleeved on the plurality of extrusion telescopic shafts 18, four pairs of extrusion fixed magnet blocks 20 are respectively installed on the four pairs of extrusion toothed fixed blocks 17, and four pairs of extrusion fixed electromagnets 21 are respectively installed on the inner sides of the four pairs of toothed lifting grooves.

In the above description, the four pairs of extrusion fixing electromagnets 21 are energized, the four pairs of extrusion fixing electromagnets 21 repel or adsorb the extrusion fixing magnet blocks 20 magnetically, the four pairs of extrusion fixing magnet blocks 20 drive the extrusion toothed fixing blocks 17 thereon respectively, and the glass plate is extruded and fixed between the pair of concave large-size telescopic blocks 7 and the pair of concave small-size telescopic blocks 8 through the four pairs of extrusion toothed fixing blocks 17 relatively stretching, and the extrusion toothed fixing blocks 17 are limited through the extrusion sleeve springs 19.

As a preferable solution, four pairs of the extrusion toothed fixing blocks 17 are respectively provided with a plurality of extrusion rubber pads.

As a preferable scheme, a plurality of ball grooves are formed in the lifting support plate 5, and support balls are respectively arranged on the inner sides of the ball grooves.

As a preferable scheme, the concave supporting table 1 is provided with a high-pressure inflator pump, and the high-pressure inflator pump is provided with a high-pressure drainage tube.

As a preferable scheme, two pairs of flexible rubber mats 16 and a plurality of extrusion rubber mats are respectively provided with pressure sensors.

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 glass positioning mechanism for a high pressure water cutting machine, comprising: the device comprises a concave supporting table, a longitudinal and transverse screw rod module, a high-pressure cutting knife and a processing bracket, and is characterized in that the processing bracket is arranged on the concave supporting table, a glass fixing structure is arranged on the concave supporting table, the longitudinal and transverse screw rod module is arranged on the processing bracket, and the high-pressure cutting knife is arranged on the moving end of the longitudinal and transverse screw rod module;

the glass fixing structure comprises: the device comprises a lifting support plate, two pairs of lifting hydraulic push rods, a pair of concave large-size telescopic blocks, a pair of concave small-size telescopic blocks, two pairs of square limiting blocks, four pairs of horizontal telescopic sliding ways, a plurality of limiting shafts, a plurality of limiting sleeve springs, a plurality of magnet blocks, two pairs of flexible rubber mats and an extrusion fixing assembly;

the two pairs of lifting hydraulic push rods are installed in pairs on the inner sides of the concave supporting tables in parallel, the lifting supporting plates are installed on the pushing ends of the two pairs of lifting hydraulic push rods, a pair of horizontal telescopic correction grooves are formed in the concave large-size telescopic blocks respectively, two pairs of return-shaped limiting blocks are installed on the concave small-size telescopic blocks respectively, the two pairs of return-shaped limiting blocks are movably inserted on the inner sides of the two pairs of horizontal telescopic correction grooves respectively, four pairs of horizontal telescopic slide ways are installed on the inner sides of the two pairs of horizontal telescopic correction grooves respectively, four pairs of horizontal telescopic slide blocks are installed on the two pairs of return-shaped limiting blocks respectively, the four pairs of horizontal telescopic slide blocks are movably inserted on the inner sides of the four pairs of horizontal telescopic slide ways respectively, a plurality of limiting shafts are inserted on the inner sides of the concave large-size telescopic blocks and the concave small-size telescopic blocks respectively, a plurality of return-shaped limiting shafts are sleeved on the concave small-size telescopic blocks respectively, a plurality of pairs of concave small-size telescopic blocks are installed on the concave small-size telescopic blocks respectively, a plurality of pairs of concave large-size telescopic blocks are installed on the concave large-size telescopic blocks respectively, and the pair of small-size telescopic blocks are installed on the concave small-size telescopic blocks respectively, and the pair of small-size telescopic blocks are installed on the concave large-size telescopic blocks respectively, and the pair of the concave telescopic blocks are fixedly sleeved on the concave-size telescopic blocks respectively, and the concave-size telescopic blocks are installed on the concave-type large-size telescopic blocks respectively, and the concave-type sides.

2. The glass positioning mechanism for a high-pressure water jet cutting machine according to claim 1, wherein the pressing and fixing assembly comprises: four pairs of extrusion toothed fixed blocks, a plurality of extrusion telescopic shafts, a plurality of extrusion sleeve springs, four pairs of extrusion fixed magnet blocks and four pairs of extrusion fixed electromagnets;

a pair of concave large-size flexible piece and a pair of concave small-size flexible piece are last to have seted up respectively a pair of dentate lift groove, four pairs extrusion dentate fixed block respectively movable cartridge in four pairs the inboard in dentate lift groove, a plurality of extrusion telescopic shaft respectively cartridge in four pairs the inboard in dentate lift groove, and a plurality of extrusion telescopic shaft respectively cartridge in four pairs extrusion dentate fixed block is last, a plurality of extrusion suit spring respectively suit in a plurality of extrusion telescopic shaft is last, four pairs extrusion fixed magnet piece is installed respectively in four pairs on the extrusion dentate fixed block, four pairs extrusion fixed electromagnet is installed respectively in four pairs the inboard in dentate lift groove.

3. The glass positioning mechanism for a high-pressure water cutting machine according to claim 2, wherein a plurality of extrusion rubber pads are respectively arranged on the four pairs of extrusion toothed fixed blocks.

4. The glass positioning mechanism for a high-pressure water cutting machine according to claim 3, wherein a plurality of ball grooves are formed in the lifting supporting plate, and supporting balls are respectively arranged on the inner sides of the ball grooves.

5. The glass positioning mechanism for a high-pressure water cutting machine according to claim 4, wherein the concave supporting table is provided with a high-pressure inflator pump, and the high-pressure inflator pump is provided with a high-pressure drainage tube.

6. The glass positioning mechanism for a high-pressure water cutting machine according to claim 5, wherein pressure sensors are respectively arranged on the two pairs of flexible rubber mats and the plurality of extrusion rubber mats.

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