CN220312637U - Gantry type machining center feeding device convenient to use - Google Patents

Abstract

The utility model relates to the field of feeding of gantry machining centers, in particular to a convenient feeding device of a gantry machining center, which has the technical scheme that: the device comprises a gantry type frame, wherein a moving assembly is arranged at the bottom of the gantry type frame, a workbench is arranged at the upper end of the moving assembly, a storage box is arranged at one side of the gantry type frame, and a limit assembly is arranged at the upper end of the side edge of the storage box, and the beneficial effects of the device are that: the inside of depositing the chamber is put into in advance to many steel pipes, spacing subassembly will peg graft in the inboard of locating frame this moment and shelter from the bin outlet, make the steel pipe unable self-passing bin outlet landing, when needing the steel pipe to discharge, can upwards move spacing subassembly, the steel pipe will drop through the bin outlet this moment, the diameter of bin outlet is slightly greater than the diameter of steel pipe, can only make a steel pipe pass through at every turn, when dropping a steel pipe, spacing subassembly can descend again to peg graft in the inboard of locating frame and shelter from the bin outlet, prevent that a plurality of steel pipes from dropping simultaneously at the workstation upper end and causing to pile up.

Description

Gantry type machining center feeding device convenient to use

Technical Field

The utility model relates to the field of feeding of gantry machining centers, in particular to a convenient feeding device of a gantry machining center.

Background

The gantry machining center is a machining center with a spindle axis perpendicular to the workbench, the whole structure is a portal frame, the portal frame is composed of double upright posts and a top beam, and a machining element is arranged in the middle of the top beam, so that a workpiece can be machined by the machining element conveniently.

When needing to process tubular object such as steel pipe, plastic tubing, all need artifical manual material loading generally, reuse anchor clamps are fixed to pipeline centre gripping, prevent that tubular object from taking place to roll on table surface, remove anchor clamps again after tubular object processing is accomplished, take out tubular object afterwards, so reciprocating operation is comparatively troublesome, and the cost of labor increases, also can waste with much time, influences holistic machining efficiency.

Therefore, it is necessary to invent a portal type machining center feeding device.

Disclosure of Invention

The present utility model is directed to solving the problems set forth in the background art.

In order to achieve the above object, the present utility model provides the following technical solutions: the utility model provides a planer-type machining center loading attachment of being convenient for, includes planer-type frame, the removal subassembly is installed to the bottom of planer-type frame, the workstation is installed to the upper end of removal subassembly, the bin is installed to one side of planer-type frame, spacing subassembly is installed to the side upper end of bin.

Based on the above characteristics: when the steel pipes need to be moved to the gantry frame one by one to be processed, the plurality of steel pipes can be placed in the hollow storage box at first, the limiting component can be limited on one side of the storage box at the moment, the steel pipes are prevented from sliding outwards, when the moving component drives the workbench to move to one side of the storage box, the limiting component can be opened, the steel pipes roll down to the middle of the workbench to be limited at the moment, and finally the moving component can move the workbench to the lower end of the gantry frame to process the steel pipes.

Preferably, the gantry type frame comprises a double-upright post and a cross beam arranged at the upper end of the double-upright post, and a processing element is arranged at the lower end of the cross beam.

Based on the above characteristics: the gantry type frame consists of double upright posts and a cross beam, and the arranged processing element can move back and forth and left and right through the cross guide rail and can be lifted through the air cylinder, so that the processing element can be conveniently driven to adjust the position and the height to process the steel pipe.

Preferably, the moving assembly comprises a rodless cylinder, the upper end of the rodless cylinder is slidably connected with a guide sliding block, and the top end of the guide sliding block is fixedly provided with a connecting column.

Based on the above characteristics: the workbench is connected with the connecting column through bolts, and the rodless cylinder can drive the guide sliding block to slide reciprocally, so that the guide sliding block drives the workbench to move synchronously through the connecting column.

Preferably, the workbench comprises a bottom plate and limiting side plates fixedly mounted on two sides of the upper end of the bottom plate, sliding plates are fixedly mounted on symmetrical surfaces of the limiting side plates, and the sliding plates are obliquely arranged.

Based on the above characteristics: the workbench comprises a bottom plate, a limiting side plate and two sliding plates, wherein the limiting side plate and the sliding plates are in an inclined shape, so that a V-shaped structure is formed between the two sliding plates, and steel pipes can fall into the middle of the two sliding plates to be positioned conveniently.

Preferably, the vacuum adsorption port is formed in the upper end surface of the bottom plate, and one end of the bottom plate is connected with a connecting pipe.

Based on the above characteristics: when the vacuum pump is started, air in the middle of the inner cavity of the bottom plate can be sucked through the connecting pipe, gas molecules are adsorbed in the vacuum environment, an adsorption layer of the gas molecules is formed, at the moment, steel pipes in the middle of two groups of sliding plates can be adsorbed and positioned through the vacuum adsorption ports, after the steel pipes are processed, the vacuum pump is only required to be closed, at the moment, the steel pipes cannot be adsorbed through the vacuum adsorption ports, and at the moment, the steel pipes can be pushed out only through manual extraction or by using the air cylinders.

Preferably, a storage cavity is formed in the middle of the storage box, a discharge hole is formed in one side, close to the workbench, of the storage box, and a hollow positioning frame is fixedly arranged at the lower end of the outer side of the discharge hole.

Based on the above characteristics: the steel pipes are placed in the storage cavity, at the moment, the limiting assembly is plugged into the inner side of the positioning frame to shield the discharge hole, so that the steel pipes cannot slide down through the discharge hole, and when the steel pipes are required to be discharged, the limiting assembly can be moved upwards, and at the moment, the steel pipes fall down through the discharge hole.

Preferably, the limiting assembly comprises a fixed convex plate and an electric push rod arranged at the upper end of the fixed convex plate, a connecting plate is arranged at the movable end of the electric push rod, limiting plugboards are arranged at the lower ends of two sides of the connecting plate, and the limiting plugboards are movably spliced with the positioning frame.

Based on the above characteristics: when the electric push rod is started, the movable end can be utilized to drive the connecting plate and the limiting plugboard to lift and adjust, when the limiting plugboard descends, the limiting plugboard is inserted into the inner side of the positioning frame to shield the discharge hole, and when the limiting plugboard ascends, the limiting plugboard is separated from the positioning frame to expose the discharge hole.

The beneficial effects of the utility model are as follows:

1. can make the steel pipe material loading by oneself, many steel pipes put into in advance and deposit the intracavity portion, spacing subassembly will peg graft in the inboard of locating frame this moment and shelter from the bin outlet, make the steel pipe unable self-passing bin outlet landing, when needing the steel pipe to discharge, can upwards move spacing subassembly, the steel pipe will drop through the bin outlet this moment, the diameter of bin outlet is slightly greater than the diameter of steel pipe, can only make a steel pipe pass through at every turn, when a steel pipe falls down, spacing subassembly can descend again and peg graft in the inboard of locating frame and shelter from the bin outlet, prevent once many steel pipes to drop simultaneously at the workstation upper end and cause to pile up.

2. Can carry out spacing fixed to the steel pipe of landing, be V type structure between two sets of slide, make things convenient for the steel pipe to fall into the middle location of two sets of slide, when the vacuum pump starts, can make gas molecule adsorbed in vacuum environment through the air in the middle of the connecting pipe suction bottom plate inner chamber, form the adsorbed layer of a gas molecule, can adsorb the location to the steel pipe in the middle of two sets of slide through the vacuum absorption mouth this moment, after the steel pipe processing is accomplished, only need close the vacuum pump, the vacuum absorption mouth will not adsorb the steel pipe this moment, at this moment only need the manual work to take out or utilize the cylinder to release the steel pipe can.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a feeding device of a gantry type machining center;

FIG. 2 is a diagram showing a gantry type machining center provided by the utility model, which is convenient for a loading device to move a component and a workbench to be split;

FIG. 3 is a view showing a descending state of a limiting plugboard of a loading device of a gantry machining center;

fig. 4 is a lifting state diagram of a limiting plugboard of a gantry type machining center convenient for a feeding device.

In the figure: 1. a gantry type frame; 11. double upright posts; 12. a cross beam; 13. machining the element; 2. a moving assembly; 21. a rodless cylinder; 22. a guide slide block; 23. a connecting column; 3. a work table; 31. a bottom plate; 311. a vacuum adsorption port; 312. a connecting pipe; 32. a limit side plate; 33. a slide plate; 4. a storage tank; 41. a storage cavity; 42. a discharge port; 43. a positioning frame; 5. a limit component; 51. fixing the convex plate; 52. an electric push rod; 53. a connecting plate; 54. and a limiting plugboard.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Referring to fig. 1-4, the convenient loading device of the gantry type machining center provided by the utility model comprises a gantry type frame 1, wherein a moving assembly 2 is arranged at the bottom of the gantry type frame 1, a workbench 3 is arranged at the upper end of the moving assembly 2, a storage box 4 is arranged at one side of the gantry type frame 1, and a limiting assembly 5 is arranged at the upper end of the side edge of the storage box 4.

When the steel pipes need to be moved to the gantry type frame 1 one by one to be processed, a plurality of steel pipes can be firstly placed into the hollow storage box 4, the limiting component 5 can be limited on one side of the storage box 4 at the moment, the steel pipes are prevented from sliding outwards, when the moving component 2 drives the workbench 3 to move to one side of the storage box 4, the limiting component 5 can be opened, the steel pipes can roll down to the middle of the workbench 3 to be limited at the moment, and finally the moving component 2 can move the workbench 3 to the lower end of the gantry type frame 1 to process the steel pipes.

Further, the gantry 1 comprises a double upright 11 and a beam 12 mounted at the upper end of the double upright 11, and a processing element 13 is mounted at the lower end of the beam 12.

The gantry type frame 1 is composed of double upright posts 11 and a cross beam 12, a processing element 13 can move back and forth and left and right through a cross guide rail, and can be lifted through an air cylinder, so that the processing element 13 can be conveniently driven to adjust the position and the height to process a steel pipe, and the gantry type frame is a prior known technology and is not described in detail.

Further, the moving assembly 2 comprises a rodless cylinder 21, a guide sliding block 22 is slidably connected to the upper end of the rodless cylinder 21, and a connecting column 23 is fixedly installed at the top end of the guide sliding block 22.

The workbench 3 is connected with the connecting column 23 through bolts, and the rodless cylinder 21 can drive the guide slide block 22 to slide reciprocally, so that the guide slide block 22 drives the workbench 3 to move synchronously through the connecting column 23.

Further, the workbench 3 comprises a bottom plate 31 and limiting side plates 32 fixedly mounted on two sides of the upper end of the bottom plate 31, sliding plates 33 are fixedly mounted on the symmetrical surfaces of the limiting side plates 32, and the sliding plates 33 are obliquely arranged.

The workbench 3 consists of a bottom plate 31, a limiting side plate 32 and two sliding plates 33, wherein the limiting side plate 32 and the sliding plates 33 are two groups, and the sliding plates 33 are inclined, so that the two groups of sliding plates 33 are of a V-shaped structure, and steel pipes can fall into the middle of the two groups of sliding plates 33 to be positioned conveniently.

Further, a vacuum suction port 311 is formed on the upper end surface of the bottom plate 31, and a connection pipe 312 is connected to one end of the bottom plate 31.

The middle of the inner cavity of the bottom plate 31 is in a hollow vacuum state, one end of the connecting pipe 312 is connected with the middle of one end of the bottom plate 31, the other end of the connecting pipe 312 is connected with a vacuum pump (not shown in the figure, the prior art is not needed to be repeated), when the vacuum pump is started, air in the middle of the inner cavity of the bottom plate 31 can be pumped through the connecting pipe 312, gas molecules are adsorbed in a vacuum environment to form an adsorption layer of the gas molecules, at the moment, the steel pipes in the middle of two groups of sliding plates 33 can be adsorbed and positioned through the vacuum adsorption ports 311, after the steel pipes are processed, the vacuum pump is only needed to be closed, at the moment, the vacuum adsorption ports 311 can not adsorb the steel pipes, and at the moment, the steel pipes can be pushed out only by manually pumping or by utilizing the air cylinders.

Further, a storage cavity 41 is formed in the middle of the storage box 4, a discharge opening 42 is formed in one side, close to the workbench 3, of the storage box 4, and a hollow positioning frame 43 is fixedly arranged at the lower end of the outer side of the discharge opening 42.

The steel pipes are placed into the storage cavity 41, at the moment, the limiting component 5 is plugged into the inner side of the positioning frame 43 to shield the discharge hole 42, so that the steel pipes cannot slide through the discharge hole automatically, when the steel pipes are required to be discharged, the limiting component 5 can be moved upwards, at the moment, the steel pipes fall through the discharge hole 42, the diameter of the discharge hole 42 is slightly larger than that of the steel pipes, only one steel pipe can pass through each time, and when one steel pipe falls, the limiting component 5 can descend again to plug into the inner side of the positioning frame 43 to shield the discharge hole 42, so that the steel pipes can be prevented from falling down to the upper end of the workbench 3 at the same time once to cause accumulation.

Further, the limiting assembly 5 comprises a fixed convex plate 51 and an electric push rod 52 arranged at the upper end of the fixed convex plate 51, a connecting plate 53 is arranged at the movable end of the electric push rod 52, limiting inserting plates 54 are arranged at the lower ends of two sides of the connecting plate 53, and the limiting inserting plates 54 are movably inserted into the positioning frame 43.

The electric push rod 52 is arranged at the upper end of the fixed convex plate 51 through a bolt, the movable end of the electric push rod 52 movably penetrates through the middle of the fixed convex plate 51, when the electric push rod 52 is started, the movable end can be utilized to drive the connecting plate 53 and the limiting inserting plate 54 to lift and adjust, when the limiting inserting plate 54 descends, the limiting inserting plate 54 is inserted into the inner side of the positioning frame 43 to shield the discharge hole 42, and when the limiting inserting plate 54 ascends, the limiting inserting plate 54 is separated from the positioning frame 43 to expose the discharge hole 42.

The application process of the utility model is as follows: when the steel pipe processing device is used, the electric push rod 52 drives the limiting inserting plate 54 to descend through the connecting plate 53 to be inserted into the inner side of the positioning frame 43, the limiting inserting plate 54 is used for shielding the discharge hole 42, then a plurality of steel pipes are placed into the storage cavity 41, when the steel pipes are required to be discharged, the electric push rod 52 drives the limiting inserting plate 54 to ascend through the connecting plate 53 to expose the discharge hole 42, at the moment, a single steel pipe falls down through the discharge hole 42 and rolls down to the middle of the two groups of sliding plates 33 to be positioned, then a vacuum pump is started, air in the middle of the inner cavity of the bottom plate 31 is sucked through the connecting pipe 312, gas molecules are adsorbed in a vacuum environment to form an adsorption layer of gas molecules, at the moment, the steel pipes in the middle of the two groups of sliding plates 33 can be adsorbed and positioned through the vacuum adsorption hole 311, after the steel pipes are processed, the vacuum pump is only required to be closed, at the moment, the vacuum adsorption hole 311 can not adsorb the steel pipes, and at last, the steel pipes can be pumped out manually or pushed out by using a cylinder.

The above description is of the preferred embodiments of the present utility model, and any person skilled in the art may modify the present utility model or make modifications to the present utility model with the technical solutions described above. Therefore, any simple modification or equivalent made according to the technical solution of the present utility model falls within the scope of the protection claimed by the present utility model.

Claims (7)

1. The utility model provides a planer-type machining center loading attachment of being convenient for, includes planer-type frame (1), its characterized in that: the automatic lifting device is characterized in that a moving assembly (2) is arranged at the bottom of the gantry type frame (1), a workbench (3) is arranged at the upper end of the moving assembly (2), a storage box (4) is arranged at one side of the gantry type frame (1), and a limiting assembly (5) is arranged at the upper end of the side edge of the storage box (4).

2. The gantry type machining center feeding device convenient to use according to claim 1, wherein: the gantry type frame (1) comprises double upright posts (11) and a cross beam (12) arranged at the upper end of the double upright posts (11), and a processing element (13) is arranged at the lower end of the cross beam (12).

3. The gantry type machining center feeding device convenient to use according to claim 1, wherein: the movable assembly (2) comprises a rodless cylinder (21), the upper end of the rodless cylinder (21) is connected with a guide sliding block (22) in a sliding mode, and the top end of the guide sliding block (22) is fixedly provided with a connecting column (23).

4. The gantry type machining center feeding device convenient to use according to claim 1, wherein: the workbench (3) comprises a bottom plate (31) and limiting side plates (32) fixedly mounted on two sides of the upper end of the bottom plate (31), sliding plates (33) are fixedly mounted on the symmetrical surfaces of the limiting side plates (32), and the sliding plates (33) are obliquely arranged.

5. The gantry type machining center feeding device convenient to use according to claim 4, wherein: the vacuum adsorption port (311) is formed in the upper end surface of the bottom plate (31), and one end of the bottom plate (31) is connected with a connecting pipe (312).

6. The gantry type machining center feeding device convenient to use according to claim 1, wherein: the middle of the storage box (4) is provided with a storage cavity (41), one side of the storage box (4) close to the workbench (3) is provided with a discharge hole (42), and the lower end of the outer side of the discharge hole (42) is fixedly provided with a hollow positioning frame (43).

7. The gantry type machining center feeding device convenient to use according to claim 1, wherein: the limiting assembly (5) comprises a fixed convex plate (51) and an electric push rod (52) arranged at the upper end of the fixed convex plate (51), a connecting plate (53) is arranged at the movable end of the electric push rod (52), limiting inserting plates (54) are arranged at the lower ends of two sides of the connecting plate (53), and the limiting inserting plates (54) are movably inserted into the positioning frame (43).