CN219188777U - Numerical control milling machine convenient to adjust - Google Patents

Abstract

The utility model relates to the technical field of numerically controlled milling machines, in particular to a numerically controlled milling machine convenient to adjust, which comprises a fixed clamp bottom plate, wherein a hydraulic cylinder is embedded below the inside of the fixed clamp bottom plate, a placing table is connected to a power output end of the hydraulic cylinder, an assembly plate is fixed on one side of the top end of the placing table, and a first hydraulic rod is embedded inside the assembly plate. The bottom plate of the fixed clamp is arranged on the operating table surface of the milling machine through the bolts, is positioned below the milling machine, the placing table is convenient to place and support the workpiece, the placing table is pushed to be lifted through the hydraulic cylinder, the height of the workpiece is convenient to adjust, meanwhile, the contact surface between the placing table and the bottom plate of the fixed clamp is bonded with the elastic block, the phenomenon that the placing table collides with and is vibrated or damaged when lifting is avoided, the workpiece is clamped and fixed through the first hydraulic rod, the workpiece is pushed to be clamped and fixed through the first hydraulic rod, and the machining is prevented from being influenced by shaking in the machining process, and the first hydraulic rod is fixedly supported through the assembly plate.

Description

Numerical control milling machine convenient to adjust

Technical Field

The utility model relates to the technical field of numerical control milling machines, in particular to a numerical control milling machine convenient to adjust.

Background

The milling machine is a machine tool for processing a workpiece through the milling cutter, and in industrial manufacture, the surface of the workpiece can be milled, so that the processing is performed, the manual cutting and grinding are avoided, the production efficiency is improved, the milling machine is fast developed in the aspect of a control system, the automation degree of the milling machine is greatly improved due to the digital control application, the digital control system of a microprocessor and an automatic tool changing system are applied to the milling machine, the processing range of the milling machine is enlarged, and the processing precision and efficiency are improved.

The numerical control milling machine with the publication number of CN208374301U comprises a workbench and a telescopic shaft, a holding groove is formed in the middle position of the inner surface of the upper end of the workbench, a pin hole is formed in one side, close to the holding groove, of the inner surface of the upper end of the workbench, a stand column is fixedly arranged on the outer surface of the rear end of the workbench, a spindle box is fixedly arranged on the outer surface of the front end of the stand column, a milling head is fixedly arranged on the outer surface of the front end, close to the lower end of the spindle box, of the stand column, a wire is fixedly arranged on the outer surface of one side, close to the spindle box, of the inner surface of the front end of the stand column, an embedded groove is formed in one side, close to the spindle box, of the outer surface of the upper end of the stand column, and a supporting rod is movably arranged on the outer surface of the upper end of the stand column. The numerical control milling machine is provided with the embedded groove, the first clamping block, the second clamping block and the lower rotating plate, can protect the control panel when the control panel is not used, is convenient for fixing objects with different volumes, can collect the objects, is applicable to different working conditions, and brings better use prospects.

In summary, the following technical problems exist in the prior art: the existing milling machine cannot be adjusted in the working process, so that a workpiece to be processed cannot be lifted, rotated, clamped and the like, and the workpiece needs to be manually adjusted in the working process, so that the working efficiency is affected.

Disclosure of Invention

The utility model aims to provide a numerical control milling machine convenient to adjust so as to solve the problems in the background technology.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a numerically controlled fraise machine convenient to adjust, includes milling machine operation panel, and the mounting fixture bottom plate is installed to milling machine operation panel's top, and the inside below of mounting fixture bottom plate inlays and is equipped with the pneumatic cylinder, the power take off end of pneumatic cylinder is connected with places the platform, and places top one side of platform and be fixed with the assembly plate, the inside of assembly plate inlays and is equipped with first hydraulic stem, and the power take off end of first hydraulic stem is connected with the grip block.

Preferably, the placing table forms a sliding structure with the bottom plate of the fixed clamp through a hydraulic cylinder, and the placing table is connected with the assembly plate in a welding way.

Preferably, the clamping plate forms a telescopic structure between the first hydraulic rod and the assembly plate, and the first hydraulic rod penetrates through the assembly plate.

Preferably, the top opposite side of placing the platform is fixed with the mount, and the inner wall of mount has seted up first spout, first sliding block has been worn out to the inside of first spout, and the inner wall of first sliding block has settled the second hydraulic stem, the power take off end of second hydraulic stem is connected with the pressure board, and the below of second hydraulic stem is provided with promotes the hydraulic stem, the one end that the pressure board was kept away from to the second hydraulic stem is connected with the motor, and the outside of motor installs the second sliding block, the outer wall connection of second sliding block has the second spout, and the outside of second spout is provided with the mounting panel.

Preferably, the second hydraulic rod penetrates into the first sliding block, and the first sliding block forms a sliding structure with the fixing frame through the first sliding groove.

Preferably, the second sliding block forms a sliding structure with the mounting plate through the second hydraulic rod and the lifting hydraulic rod, and the mounting plate is welded with the placing table.

Preferably, the pressing plate forms a rotating structure with the motor through a second hydraulic rod, and the motor forms a sliding structure with the second sliding groove through a second sliding block.

The above description shows that, by the above technical solution of the present application, the technical problem to be solved by the present application can be necessarily solved.

Meanwhile, through the technical scheme, the utility model has at least the following beneficial effects:

the bottom plate of the fixed clamp is arranged on the operating table surface of the milling machine through the bolts, is positioned below the milling machine, the placing table is convenient to place and support the workpiece, the placing table is pushed to be lifted through the hydraulic cylinder, the height of the workpiece is convenient to adjust, meanwhile, the contact surface between the placing table and the bottom plate of the fixed clamp is bonded with the elastic block, the phenomenon that the placing table collides with and is vibrated or damaged when lifting is avoided, the workpiece is clamped and fixed through the first hydraulic rod, the workpiece is pushed to be clamped and fixed through the first hydraulic rod, and the machining is prevented from being influenced by shaking in the machining process, and the first hydraulic rod is fixedly supported through the assembly plate.

According to the utility model, the lifting hydraulic rod is arranged on the placing table through the bolt, the second hydraulic rod penetrates out of the sleeve arranged at the power end of the lifting hydraulic rod, the lifting hydraulic rod works so as to conveniently drive the second hydraulic rod to slide along the fixing frame through the first sliding groove, the first sliding block is sleeved outside the contact surface of the second hydraulic rod and the first sliding groove, the first sliding block is clamped with the first sliding groove, collision with the first sliding groove is prevented and avoided when the second hydraulic rod slides, the stability is kept, and the lifting hydraulic rod is convenient to push the pressing plate to clamp and fix workpieces through up and down adjustment of the second hydraulic rod, so that the lifting hydraulic rod is suitable for clamping workpieces with different heights.

According to the utility model, the second hydraulic rod is conveniently driven to rotate through the motor, when the workpiece is required to be adjusted to rotate and then processed, after the workpiece is loosened through the first hydraulic rod, the pressing plate is pushed by the second hydraulic rod to clamp the workpiece, the second hydraulic rod is pushed by the lifting hydraulic rod to enable the workpiece to be in a suspended state, the second hydraulic rod is driven to rotate through the motor to drive the workpiece to rotate, the second sliding block arranged outside the motor is clamped with the second sliding groove of the mounting plate, so that the workpiece can conveniently slide up and down along with the second hydraulic rod, and meanwhile, when the workpiece is not in a turnover state, the second hydraulic rod is conveniently supported and stabilized, and shaking is avoided.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic view of a first hydraulic lever structure according to the present utility model;

fig. 4 is a schematic view of a second hydraulic lever structure according to the present utility model.

In the figure: 1. a milling machine operation table; 2. a fixed clamp bottom plate; 3. a hydraulic cylinder; 4. a placement table; 5. an assembly plate; 6. a first hydraulic lever; 7. a clamping plate; 8. a fixing frame; 9. a second hydraulic lever; 10. a first slider; 11. a pressing plate; 12. a first chute; 13. lifting the hydraulic rod; 14. a mounting plate; 15. a second chute; 16. a second slider; 17. and a motor.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Description of the preferred embodiments

As shown in fig. 1, 2 and 3, the present utility model provides a technical solution: the utility model provides a numerically controlled fraise machine convenient to adjust, including milling machine operation panel 1, mounting fixture bottom plate 2 is installed to milling machine operation panel 1's top, mounting fixture bottom plate 2's inside below is inlayed and is equipped with pneumatic cylinder 3, pneumatic cylinder 3's power take off end is connected with places platform 4, top one side of placing platform 4 is fixed with assembly plate 5, first hydraulic stem 6 is inlayed in the inside of assembly plate 5, first hydraulic stem 6's power take off end is connected with grip block 7, place platform 4 and assembly plate 5 welded connection constitute sliding structure through between pneumatic cylinder 3 and the mounting fixture bottom plate 2, grip block 7 passes through first hydraulic stem 6 and constitutes extending structure between mounting plate 5, first hydraulic stem 6 runs through to the inside of assembly plate 5, mounting fixture bottom plate 2 passes through the bolt to be installed on milling machine operation panel 1, and be located the milling cutter below, place platform 4 and be convenient for place and hold in the palm the load work piece, the work promotes through pneumatic cylinder 3 and places platform 4 and lift, be convenient for adjust the height of work piece, place platform 4 and mounting fixture bottom plate 2 contact surface simultaneously, the bonding elastic block avoids placing platform 4 and takes place to collide with when lifting, cause or rock in the work piece 6 through first hydraulic stem 6 and vibration plate 6, avoid the work piece to rock in the fixed plate 6 to process and vibration plate 5 to work through the first hydraulic stem 6, the fixed plate is processed and broken in the fixed plate is avoided.

Example two

The scheme in the first embodiment is further described below in conjunction with a specific working manner, and the details are described below:

as shown in fig. 1, fig. 2 and fig. 4, as a preferred embodiment, further, on the basis of the above manner, the other side of the top end of the placing table 4 is fixed with a fixing frame 8, a first chute 12 is provided on the inner wall of the fixing frame 8, a first sliding block 10 is penetrated out of the interior of the first chute 12, a second hydraulic rod 9 is provided on the inner wall of the first sliding block 10, a pressing plate 11 is connected to the power output end of the second hydraulic rod 9, a lifting hydraulic rod 13 is provided below the second hydraulic rod 9, the second hydraulic rod 9 penetrates into the interior of the first sliding block 10, the first sliding block 10 is mounted on the placing table 4 through a sliding structure formed between the first chute 12 and the fixing frame 8, the lifting hydraulic rod 13 is mounted on the placing table 4 through a bolt, a sleeve mounted at the power end of the lifting hydraulic rod 13, the second hydraulic rod 9 is penetrated out of the interior, the second hydraulic rod 13 is conveniently driven to slide along the fixing frame 8 through the lifting hydraulic rod 13, a first sliding block 10 is sleeved outside the contact surface of the second hydraulic rod 9 and the first chute 12, the first sliding block 10 is blocked with the first chute 12, the second hydraulic rod 9 is prevented from being blocked by the second hydraulic rod 9 and is not pushed by the second hydraulic rod 9 to be clamped against the first hydraulic rod 9, and the workpiece is not kept stable when the second hydraulic rod is not pushed and clamped by the second hydraulic rod 9.

As shown in fig. 1 and fig. 2, as a preferred embodiment, further, on the basis of the above manner, one end of the second hydraulic rod 9 away from the pressing plate 11 is connected with a motor 17, a second sliding block 16 is installed outside the motor 17, the outer wall of the second sliding block 16 is connected with a second sliding groove 15, a mounting plate 14 is arranged outside the second sliding groove 15, the second sliding block 16 forms a sliding structure between the second hydraulic rod 9 and the lifting hydraulic rod 13 and the mounting plate 14, the mounting plate 14 is in welded connection with the placing table 4, the pressing plate 11 forms a rotating structure between the second hydraulic rod 9 and the motor 17, the motor 17 forms a sliding structure between the second sliding block 16 and the second sliding groove 15, the motor 17 is convenient to drive the second hydraulic rod 9 to rotate through the motor 17, when the workpiece is required to be adjusted to rotate, after the workpiece is loosened through the first hydraulic rod 6, the workpiece is clamped through the second hydraulic rod 9, the workpiece is in a suspended state through the lifting hydraulic rod 9, the workpiece is driven by the lifting hydraulic rod 13, the workpiece is driven to rotate through the motor 17, the second hydraulic rod 9 is driven to rotate, and accordingly, the workpiece is driven to rotate through the motor 17, the second hydraulic rod is driven to rotate, and the second sliding block 16 is mounted outside the second hydraulic rod 16, and the second hydraulic rod is convenient to rotate, and the workpiece is prevented from swinging, and the second sliding rod is convenient to rotate when the second hydraulic rod is supported by the mounting plate 9, and is convenient to rotate and does not swing, and has the second hydraulic rod and has stable sliding rod.

From the above, it can be seen that:

the utility model aims at the technical problems that: in the working process of the existing milling machine, the workpiece to be processed cannot be lifted, rotated, clamped and the like, so that the workpiece is required to be manually adjusted in the working process, and the working efficiency is affected; the technical scheme of each embodiment is adopted. Meanwhile, the implementation process of the technical scheme is as follows:

the mounting fixture bottom plate 2 passes through the bolt to be installed on milling machine operation panel 1, work through mounting fixture bottom plate 2 internally mounted's pneumatic cylinder 3, promote to place the platform 4 and go up and down, thereby be convenient for drive and place the work piece on the platform 4 and go up and down, first hydraulic stem 6 work through the inlaying of assembly plate 5, be convenient for promote clamping plate 7 centre gripping work piece, avoid producing when processing and rock, place platform 4 top one side welding mount 8, first sliding chute 12 inside block first sliding block 10 that mount 8 offered, second hydraulic stem 9 runs through first sliding block 10, and power end promotes to press down the board 11 and compress tightly the work piece, second hydraulic stem 9 outside sleeve-mount is at the power end of promotion hydraulic stem 13, be convenient for promote the second hydraulic stem 9 through promotion hydraulic stem 13, thereby drive first sliding block 10, slide along first sliding chute 12, thereby adjust the height of pressing board 11, be convenient for hold the work piece of different height, when needs to rotate the work piece, after first hydraulic stem 6 is released, at first through second hydraulic stem 9 centre gripping work piece, through promotion hydraulic stem 13 work piece after rising to unsettled state, drive second hydraulic stem 9 work piece through the work piece through promotion hydraulic stem 17 and rotate second hydraulic stem 9 and install second hydraulic stem 16 at second sliding block 16 again, the second sliding plate 16 is followed in the mounting plate 16, the second sliding plate is convenient for carrying out the second sliding block 16.

Through above-mentioned setting, this application must solve above-mentioned technical problem, simultaneously, realizes following technical effect:

according to the utility model, the lifting hydraulic rod 13 is arranged on the placing table 4 through a bolt, the sleeve arranged at the power end of the lifting hydraulic rod 13 penetrates out of the second hydraulic rod 9, the lifting hydraulic rod 13 works so as to drive the second hydraulic rod 9 to slide along the fixed frame 8 through the first sliding groove 12, the first sliding block 10 is sleeved outside the contact surface of the second hydraulic rod 9 and the first sliding groove 12, the first sliding block 10 is clamped with the first sliding groove 12, collision with the first sliding groove 12 when the second hydraulic rod 9 slides is protected and avoided, the stability is kept, and the pressing plate 11 is conveniently pushed to clamp and fix workpieces through up and down adjustment of the second hydraulic rod 9, so that the lifting hydraulic rod is suitable for clamping workpieces with different heights;

according to the utility model, the motor 17 is convenient to drive the second hydraulic rod 9 to rotate, when a workpiece is required to be adjusted to rotate and then processed, after the workpiece is loosened through the first hydraulic rod 6, the second hydraulic rod 9 is pushed by the second hydraulic rod 9 to clamp the workpiece, the second hydraulic rod 9 is pushed by the lifting hydraulic rod 13, so that the workpiece is in a suspended state, the second hydraulic rod 9 is driven to rotate by the operation of the motor 17, the workpiece is driven to rotate, the second sliding block 16 arranged outside the motor 17 is clamped with the second sliding groove 15 of the mounting plate 14, the second hydraulic rod 9 can conveniently slide up and down, and meanwhile, when the workpiece is not in a turnover state, the second hydraulic rod 9 is conveniently supported and stabilized, and shaking is avoided.

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 (7)

1. A numerically controlled fraise machine convenient to adjust, characterized by comprising:

milling machine operation panel (1), mounting fixture bottom plate (2) are installed to the top of milling machine operation panel (1), and the inside below of mounting fixture bottom plate (2) inlays and is equipped with pneumatic cylinder (3), the power take off end of pneumatic cylinder (3) is connected with places platform (4), and places top one side of platform (4) and be fixed with assembly plate (5), the inside of assembly plate (5) is inlayed and is equipped with first hydraulic stem (6), and the power take off end of first hydraulic stem (6) is connected with grip block (7).

2. The numerical control milling machine convenient to adjust according to claim 1, wherein the placing table (4) forms a sliding structure with the bottom plate (2) of the fixed clamp through the hydraulic cylinder (3), and the placing table (4) is welded with the assembly plate (5).

3. The numerical control milling machine with convenient adjustment according to claim 1, wherein the clamping plate (7) forms a telescopic structure between the first hydraulic rod (6) and the assembly plate (5), and the first hydraulic rod (6) penetrates into the assembly plate (5).

4. The numerical control milling machine convenient to adjust according to claim 1, characterized in that a fixing frame (8) is fixed on the other side of the top end of the placing table (4), a first sliding groove (12) is formed in the inner wall of the fixing frame (8), a first sliding block (10) penetrates out of the inner wall of the first sliding groove (12), a second hydraulic rod (9) is arranged on the inner wall of the first sliding block (10), a pressing plate (11) is connected to the power output end of the second hydraulic rod (9), a lifting hydraulic rod (13) is arranged below the second hydraulic rod (9), a motor (17) is connected to one end, far away from the pressing plate (11), of the second hydraulic rod (9), a second sliding block (16) is mounted on the outer portion of the motor (17), a second sliding groove (15) is connected to the outer wall of the second sliding block (16), and a mounting plate (14) is arranged on the outer portion of the second sliding groove (15).

5. The numerical control milling machine with convenient adjustment according to claim 4, wherein the second hydraulic rod (9) penetrates into the first sliding block (10), and the first sliding block (10) forms a sliding structure with the fixing frame (8) through the first sliding groove (12).

6. The numerical control milling machine convenient to adjust according to claim 4, wherein the second sliding block (16) forms a sliding structure with the mounting plate (14) through the second hydraulic rod (9) and the lifting hydraulic rod (13), and the mounting plate (14) is welded with the placing table (4).

7. The numerical control milling machine with convenient adjustment according to claim 4, wherein the pressing plate (11) forms a rotating structure with the motor (17) through the second hydraulic rod (9), and the motor (17) forms a sliding structure with the second sliding block (16) through the second sliding groove (15).

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