CN112207718A - Water jet cutting turn-over table landing mechanism and water jet cutting - Google Patents

Abstract

The invention discloses a water knife overturning platform landing mechanism and a water knife. The invention relates to a water jet cutting platform landing mechanism, which is used in a water jet cutting and comprises: two lifting plates, a roll-over stand structure and a lifting driving structure which are oppositely arranged; the lifting plate is provided with a guide groove, and the turnover frame structure is arranged on the guide groove; the lifting driving structure is connected with the turnover frame structure and used for driving the turnover frame structure to move on the guide groove.

Description

Water jet cutting turn-over table landing mechanism and water jet cutting

Technical Field

The invention relates to the field of machinery, in particular to a water knife tipping platform landing mechanism and a water knife.

Background

The water jet cutting technique is a high-pressure water jet cutting technique which takes water as a knife. It is preferred that the cold cutting does not change the physicochemical properties of the material. After the technology is continuously improved, abrasive materials such as pomegranate sand, carborundum and the like are mixed in the high-pressure water to assist cutting, so that the cutting speed and the cutting thickness of the water jet cutter are greatly improved. The water jet cutter is widely applied to various industries such as ceramics, stone, glass, metal, composite materials and the like.

Before the water jet cutter is processed, firstly, loading is needed, namely, materials to be processed are conveyed to a water jet cutter workbench, and the materials to be processed can be ceramic plates, stone plates and the like; adopt tilting mechanism to carry out material loading operation with treating the processing material among the prior art, tilting mechanism mostly adopts comparatively complicated many connecting rods structural design, and not only the structure is complicated, and installation maintenance cost is higher moreover, also has the tilting mechanism shown in fig. 1, please refer to fig. 1, and the tilting mechanism in fig. 1 includes hydro-cylinder A1, crank A2 and upset arm A3. In tilting mechanism in fig. 1, the hydro-cylinder passes through the crank and drives the upset arm rotation, the realization will be placed slabstone A4 on the upset arm and carry to the water jet scalpel workstation on, the structure of this kind of tilting mechanism is simple relatively, but because the terrain clearance H1 of upset arm is too big, lead to the material loading difficulty, because slabstone or ceramic plate wait for the weight ratio of processing material bigger, and easy damage, the terrain clearance too big can lead to treating to add when processing material loading difficulty and wait to process the damaged possibility of material, furthermore, can also influence the material loading efficiency.

Therefore, in view of the above circumstances, how to improve a turnover mechanism for feeding in an existing water jet cutter so as to solve the above problems becomes an important technical problem to be solved urgently by those skilled in the art.

Disclosure of Invention

The invention discloses a water knife overturning platform landing mechanism and a water knife.

The invention provides a water jet cutting platform floor-falling mechanism, which is used in a water jet cutting and comprises: two lifting plates, a roll-over stand structure and a lifting driving structure which are oppositely arranged;

the lifting plate is provided with a guide groove, and the turnover frame structure is arranged on the guide groove;

the lifting driving structure is connected with the turnover frame structure and used for driving the turnover frame structure to move on the guide groove.

Preferably, the first and second liquid crystal materials are,

the overturning frame structure comprises a plurality of overturning arms, an overturning shaft and two guide wheel assemblies;

the plurality of turnover arms are mounted on the turnover shaft;

the guide wheel assembly comprises a guide wheel mounting seat and at least two guide wheels mounted on the guide wheel mounting seat, and the guide wheels are arranged in the guide grooves;

the two guide wheel assemblies are respectively arranged at two ends of the turnover shaft, and the guide wheel mounting seats are connected with the turnover shaft.

Preferably, the first and second liquid crystal materials are,

one end of the guide wheel mounting seat is connected with the overturning shaft, and the other end of the guide wheel mounting seat is provided with a mounting shaft for mounting the guide wheel.

Preferably, the first and second liquid crystal materials are,

the guide wheel assembly comprises two guide wheels, wherein the guide wheel close to the overturning shaft is a first guide wheel, and the guide wheel far away from the overturning shaft is a second guide wheel;

and the lifting driving structure is connected with the mounting shaft where the second guide wheel is located.

Preferably, the first and second liquid crystal materials are,

the turnover arm comprises an L-shaped connecting piece and a backup arm;

one end of the L-shaped connecting piece is connected with the turnover shaft, and the other end of the L-shaped connecting piece is connected with the leaning arm.

Preferably, the first and second liquid crystal materials are,

the lifting driving structure comprises a lifting oil cylinder, an oil cylinder mounting seat and an oil cylinder pull rod connecting piece;

the cylinder body of the lifting oil cylinder is arranged on the lifting plate through the oil cylinder mounting seat;

and a pull rod of the lifting oil cylinder is connected with a guide wheel far away from the turnover shaft in the guide wheel assembly through the oil cylinder pull rod connecting piece.

Preferably, the first and second liquid crystal materials are,

the oil cylinder mounting seat is arranged on the lifting plate through a rotating shaft and can be fixed on the lifting plate.

Preferably, the first and second liquid crystal materials are,

the guide groove comprises an upper arc-shaped groove and a lower square groove.

Preferably, the first and second liquid crystal materials are,

the lifting driving structure comprises a driving motor, a driving gear and a rack;

the driving motor is installed on the guide wheel installation seat, the driving gear is installed on the driving motor, the rack is fixed on the lifting plate, and the driving gear is matched with the rack.

The rack is the same in shape as the guide groove.

The invention also provides a water jet cutter, which comprises a water jet cutter body and a turnover mechanism arranged on the water jet cutter body, wherein the turnover mechanism is the water jet cutter platform landing mechanism;

and a lifting plate in the water jet tipping platform landing mechanism is arranged on the water jet body.

The invention relates to a water knife tipping platform landing mechanism, which is used in a water knife and comprises: two lifting plates, a roll-over stand structure and a lifting driving structure which are oppositely arranged; the lifting plate is provided with a guide groove, and the turnover frame structure is arranged on the guide groove; the lifting driving structure is connected with the turnover frame structure and used for driving the turnover frame structure to move on the guide groove. The water jet scalpel overturning platform landing mechanism comprises a lifting plate, an overturning frame structure and a lifting driving structure, wherein the lifting plate is arranged on the water jet scalpel overturning platform landing mechanism, and the lifting driving structure is used for driving the overturning frame structure to move in the guide groove along a designed track.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of a turnover mechanism in a conventional water jet scalpel;

FIG. 2 is a schematic structural diagram of a water-jet-blade landing mechanism according to an embodiment of the present invention;

FIG. 3 is a perspective view of the water knife platform landing mechanism starting to load materials according to the embodiment of the invention;

FIG. 4 is a perspective view of the water jet scalpel landing mechanism of the embodiment of the invention after material loading;

fig. 5 is a partially enlarged view of a portion a of the water jet blade platform floor-falling mechanism according to the embodiment of the present invention.

Detailed Description

The invention discloses a water knife overturning platform landing mechanism and a water knife.

The technical solutions in the embodiments of the present invention are described in detail and clearly with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. 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. Referring to fig. 2 to 5, the present invention provides a water-jet cutting platform landing mechanism for a water jet cutting, comprising: the device comprises two lifting plates 1, a roll-over stand structure 2 and a lifting driving structure 3 which are oppositely arranged;

a guide groove 11 is formed in the lifting plate 1, and the roll-over stand structure 2 is installed on the guide groove 11;

the lifting driving structure 3 is connected with the roll-over stand structure 2 and is used for driving the roll-over stand structure 2 to move on the guide groove 11.

In the embodiment of the present invention, it should be noted that, by designing the guide slot 11, the motion track of the roll-over stand structure 2 can be controlled, and the following description specifically describes: for example, the guide way 11 can contain upper portion arc wall 111 and lower part square groove 112, can realize the lifting control to the roll-over stand structure 2 through the design of lower part square groove 112, can realize the roll-over control to the roll-over stand structure 2 through upper portion arc wall 111, when the material loading height that needs roll-over stand structure 2 is lower, can suitably prolong lower part square groove 112 downwards extend the distance can, even can realize the material loading height and ground parallel and level or be less than ground height.

The core of the invention is that the lifting driving structure 3 controls the turnover frame structure 2 to move along a designed track, so that the materials to be processed are changed from a vertical placement state and a horizontal position, and the materials to be processed are loaded and unloaded. The specific structures of the roll-over stand structure 2 and the lifting driving structure 3 have various implementation and design forms, but it should be understood that the invention is not limited herein as long as the lifting driving structure 3 controls the roll-over stand structure 2 to move along a designed track to achieve loading and unloading.

Preferably, the first and second liquid crystal materials are,

the roll-over stand structure 2 comprises a plurality of roll-over arms 21, a roll-over shaft 22 and two guide wheel assemblies 23;

a plurality of said overturning arms 21 are mounted on said overturning shaft 22;

the guide wheel assembly 23 comprises a guide wheel mounting seat 231 and at least two guide wheels 232 mounted on the guide wheel mounting seat 231, and the guide wheels 232 are arranged in the guide groove 11;

the two guide wheel assemblies 23 are respectively arranged at two ends of the turning shaft 22, and the guide wheel mounting seat 231 is connected with the turning shaft 22.

In the embodiment of the present invention, the lifting driving structure 3 drives the guide wheel 232 to move in the guide groove 11, so as to control the lifting and rotating of the turnover shaft 22 along the designed track, and in the lifting and rotating process of the rotating shaft 22, the lifting arm 21 is driven, and the lifting and rotating of the material to be processed on the turnover arm 21 are realized, so as to realize the loading and unloading process of the material to be processed. The following description will be made with the material to be processed as a stone slab: generally, the stone slab is conveyed to the position near a water jet cutting machine tool by a forklift or manually and then conveyed to the turnover arm 21 manually, the weight of the stone slab is large and the stone slab is easy to damage, so that the handling needs to be noticed relatively, the relatively low ground clearance of the turnover arm 21 is convenient for manual handling, after the stone slab reaches the turnover arm 21, the stone slab can be changed from a vertically placed state to a horizontally placed state when being fed, specifically, the lifting driving structure 3 moves up in the guide groove 11 through the driving guide wheel 232, so that the turnover shaft 22 is controlled to ascend along a designed track, the turnover shaft 22 rotates after ascending to the top due to the limitation of the rotating guide groove 11, and at the moment, the stone slab can be slowly changed into the horizontally placed state along with the rotation of the turnover arm 21, and the feeding process of the stone slab is; the state of the stone plate can be changed from the horizontal state to the vertical state during blanking, and the operation process is opposite to the feeding process, so that the principle is similar, and the description is not repeated.

Preferably, the first and second liquid crystal materials are,

one end of the guide wheel mounting seat 231 is connected with the turning shaft 22, and the other end is provided with a mounting shaft for mounting the guide wheel 232.

In one design of the present invention, one end of the guide wheel mounting seat 231 is connected to the turning shaft 22, the other end is provided with a mounting shaft for mounting the guide wheel 232, the lifting driving structure 3 is connected to the mounting shaft far away from the turning shaft 22, and the lifting driving structure 3 controls the loading and unloading process of the material to be processed on the turning arm 21 by driving the mounting shaft far away from the turning shaft 22 to lift and rotate.

Preferably, the first and second liquid crystal materials are,

the guide wheel assembly comprises two guide wheels, wherein the guide wheel close to the overturning shaft is a first guide wheel, and the guide wheel far away from the overturning shaft is a second guide wheel;

and the lifting driving structure is connected with the mounting shaft where the second guide wheel is located.

Preferably, the first and second liquid crystal materials are,

the turning arm 21 comprises an L-shaped connecting piece 211 and a leaning arm 212;

one end of the L-shaped connecting piece 211 is connected with the turning shaft 22, and the other end is connected with the arm rest 212.

In the embodiment of the invention, when the roll-over stand structure 2 is at the material loading starting position, one end of the transverse part of the L-shaped connecting piece 211 is connected with the roll-over shaft 22, the other end is connected with the backup arm 212, and the material to be processed can be placed on the transverse part of the L-shaped connecting piece 211 and between the roll-over shaft 22 and the backup arm 212; the vertical part of the L-shaped connecting piece 211 is connected with the leaning arm 212, and the material to be processed is leaned on the leaning arm 212.

Preferably, the first and second liquid crystal materials are,

the lifting driving structure 3 comprises a lifting oil cylinder 31, an oil cylinder mounting seat 32 and an oil cylinder pull rod connecting piece 33;

the cylinder body of the lifting oil cylinder 31 is arranged on the lifting plate 1 through the oil cylinder mounting seat 32;

the pull rod of the lifting oil cylinder 31 is connected with the guide wheel far away from the overturning shaft 22 in the guide wheel assembly 23 through the oil cylinder pull rod connecting piece 33.

It should be noted that the specific structure and expression of the lift driving mechanism 3 are various, and may include, for example, a lift cylinder 31, a cylinder mounting base 32, and a cylinder rod connecting member 33.

The working process of the water jet scalpel landing mechanism of the present invention is described below by taking the lifting driving structure 3 comprising the lifting cylinder 31, the cylinder mounting seat 32 and the cylinder pull rod connecting piece 33 as an example: firstly, it should be noted that the lift cylinder 31 may be installed above the lift plate 1, or below the lift plate 1, only the pull rod conforming to the lift cylinder 31 may control the guide wheel to move along the set track in the guide groove 11, the following description will be made by using a loading process, the lift cylinder 31 extends the pull rod, the pull rod is connected with the guide wheel far from the turning shaft 22 in the guide wheel assembly 23, the guide wheel far from the turning shaft 22 is raised under the action of the pull rod, after the guide wheel far from the turning shaft 22 is raised to the top of the guide groove 11, the guide wheel near the turning shaft 22 moves away from the vertical direction under the limit of the guide groove 11, for example, the guide wheel moves towards the direction close to the water jet cutting machine body, the direction of the guide wheel mounting seat 231 will slowly shift from the vertical direction, that is, the turning shaft 22 starts to rotate, the slate board changes from the vertical state to the horizontal state in the rotation process of the turning shaft 22, and finishing the stone plate feeding process.

Preferably, the first and second liquid crystal materials are,

the oil cylinder mounting seat 32 is arranged on the lifting plate 1 through a rotating shaft and can be fixed on the lifting plate 1.

Preferably, the first and second liquid crystal materials are,

the guide groove 11 includes an upper arc-shaped groove 111 and a lower square-shaped groove 112.

The structure of guide way 11 can be designed according to particular case, specifically can include, upper portion arc wall 111 and lower part square groove 112, and wherein lower part square groove 112 is the lift process for realizing roll-over stand structure 2, and upper portion arc wall 111 is the rotation process for realizing roll-over stand structure 2. The following description will be given with reference to the roll-over stand structure 2 comprising two guide wheels 232, wherein the guide wheel near the roll-over axis 22 is named as the first guide wheel, the guide wheel far from the roll-over axis 22 is named as the second guide wheel, and the pull rod of the lift cylinder 31 is connected with the second guide wheel through the cylinder pull rod connecting piece 33; when lift cylinder 31 work and rise first guide pulley to the hookup location of upper portion arc wall 111 and lower part square groove 112, first guide pulley begins to receive the restriction of upper portion arc wall 111, lift cylinder 31 continues to drive the second guide pulley and rises, first guide pulley begins to follow arcuate motion under the restriction of upper portion arc wall 111, the straight line between first guide pulley and the second guide pulley and the contained angle of horizontal direction slowly become the acute angle from the right angle this moment, roll-over stand structure 2 begins to rotate promptly, drive simultaneously and wait to process the material, for example, the slabstone rotates, change into the level state of placing from vertical state of placing, the material loading process of completion slabstone.

Preferably, the first and second liquid crystal materials are,

the lifting driving structure 3 comprises a driving motor, a driving gear and a rack;

the driving motor is installed on the guide wheel installation seat 231, the driving gear is installed on the driving motor, the rack is fixed on the lifting plate 1, and the driving gear is matched with the rack.

Preferably, the first and second liquid crystal materials are,

the shape of the rack is the same as that of the guide groove 11.

As described above, the lifting driving structure 3 of the present invention has various specific structures and expressions, and may further include a driving motor, a driving gear, and a rack; the driving motor rotates, and the driving gear rotates and drives the guide wheel mounting seat 231 to move due to the matching of the driving gear and the rack. When the shape of the rack is the same as that of the guide groove 11, the driving motor drives the guide wheel mounting seat 231 to move along the track set by the guide groove 11, so as to control the rotation of the elevator of the roll-over stand structure 2.

In addition to the two implementation manners mentioned in the embodiments of the present invention, the following may be included but not limited to: such as a belt drive.

The invention also provides a water jet cutter, which comprises a water jet cutter body and a turnover mechanism arranged on the water jet cutter body 001, wherein the turnover mechanism is the water jet cutter platform landing mechanism;

the lifting plate in the water jet platform landing mechanism is arranged on the water jet body 001.

According to the water jet cutter, the structure of the water jet cutter platform landing mechanism can be simplified while convenience in loading and unloading is guaranteed.

The invention relates to a water knife tipping platform landing mechanism, which is used in a water knife and comprises: the device comprises two lifting plates 1, a roll-over stand structure 2 and a lifting driving structure 3 which are oppositely arranged; a guide groove 11 is formed in the lifting plate 1, and the roll-over stand structure 2 is installed on the guide groove 11; the lifting driving structure 3 is connected with the roll-over stand structure 2 and is used for driving the roll-over stand structure 2 to move on the guide groove 11. Through the arrangement of the water jet scalpel overturning platform landing mechanism consisting of the lifting plate 1, the overturning frame structure 2 and the lifting driving structure 3, and the lifting driving structure 3 is used for driving the overturning frame structure 2 to move in the guide groove 11 along a designed track, the water jet scalpel overturning platform landing mechanism and the water jet scalpel can realize the feeding process of materials to be processed, and have the advantage of simple structure.

The above detailed description of the water-knife landing mechanism and the water-knife provided by the present invention is provided, and a person skilled in the art may change the concept of the embodiment of the present invention in the specific implementation manner and the application scope.

Claims (10)

1. The utility model provides a water sword turn-over table falls to ground mechanism for in the water sword, its characterized in that includes: two lifting plates, a roll-over stand structure and a lifting driving structure which are oppositely arranged;

the lifting plate is provided with a guide groove, and the turnover frame structure is arranged on the guide groove;

the lifting driving structure is connected with the turnover frame structure and used for driving the turnover frame structure to move on the guide groove.

2. The water knife landing mechanism of claim 1, wherein the roll-over stand structure comprises a plurality of roll-over arms, a roll-over shaft, and two guide wheel assemblies;

the plurality of turnover arms are mounted on the turnover shaft;

the guide wheel assembly comprises a guide wheel mounting seat and at least two guide wheels mounted on the guide wheel mounting seat, and the guide wheels are arranged in the guide grooves;

the two guide wheel assemblies are respectively arranged at two ends of the turnover shaft, and the guide wheel mounting seats are connected with the turnover shaft.

3. The water knife landing mechanism as defined in claim 2, wherein the guide wheel mounting seat is connected to the turning shaft at one end thereof and provided with a mounting shaft for mounting the guide wheel at the other end thereof.

4. The water knife landing mechanism of claim 3, wherein the guide wheel assembly comprises two guide wheels, wherein the guide wheel proximal to the tilt axis is a first guide wheel and the guide wheel distal from the tilt axis is a second guide wheel;

and the lifting driving structure is connected with the mounting shaft where the second guide wheel is located.

5. The water knife landing mechanism of claim 2, wherein the flip arm includes an L-shaped connector and a backup arm;

one end of the L-shaped connecting piece is connected with the turnover shaft, and the other end of the L-shaped connecting piece is connected with the leaning arm.

6. The water knife platform floor mechanism according to any one of claims 2 to 5, wherein the lifting drive structure comprises a lifting cylinder, a cylinder mounting seat and a cylinder pull rod connecting piece;

the cylinder body of the lifting oil cylinder is arranged on the lifting plate through the oil cylinder mounting seat;

and a pull rod of the lifting oil cylinder is connected with a guide wheel far away from the turnover shaft in the guide wheel assembly through the oil cylinder pull rod connecting piece.

7. The water knife landing mechanism of claim 6, wherein the cylinder mount is mounted to the lifter plate via a pivot and is fixable to the lifter plate.

8. The water knife landing mechanism of claim 6, wherein the guide slot comprises an upper arcuate slot and a lower square slot.

9. The water knife platform floor mechanism according to any one of claims 2 to 5, wherein the lifting drive structure comprises a drive motor, a drive gear and a rack;

the driving motor is installed on the guide wheel installation seat, the driving gear is installed on the driving motor, the rack is fixed on the lifting plate, and the driving gear is matched with the rack;

the rack is the same in shape as the guide groove.

10. A water jet scalpel, which comprises a water jet scalpel body and a turnover mechanism arranged on the water jet scalpel body, and is characterized in that the turnover mechanism is the water jet scalpel overturning platform landing mechanism of any one of claims 1 to 9;

and a lifting plate in the water jet tipping platform landing mechanism is arranged on the water jet body.

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