CN219234906U - Numerically controlled grinder with truss structure - Google Patents

Abstract

The utility model discloses a numerical control grinding machine with a truss structure, which comprises a processing table body, wherein a dust removing mechanism is arranged on one side of the processing table body, a truss main body is arranged at the top end of the processing table body, a transverse moving mechanism is arranged in the truss main body, a second servo motor is arranged at the bottom end of an adjusting mechanism, and a grinding wheel is arranged at the bottom end of the second servo motor. According to the numerical control grinding machine, the transverse moving mechanism and the truss main body are arranged, the truss main body is arranged at the top end of the machining table body, the transverse moving mechanism is arranged above the truss main body, the transverse moving mechanism can be assisted to operate through the arranged truss main body, the grinding wheel arranged below the truss main body can be driven to move left and right after the transverse moving mechanism operates, and different positions of the surface of a polished object are polished, so that the polishing effect of the numerical control grinding machine is better, and the machining efficiency of the numerical control grinding machine is effectively improved.

Description

Numerically controlled grinder with truss structure

Technical Field

The utility model relates to the technical field of numerically controlled grinding machines, in particular to a numerically controlled grinding machine with a truss structure.

Background

The numerical control grinder is a processing device for polishing the surface of a workpiece to be processed through a numerical control technology, the numerical control grinder can polish the workpiece with certain hardness, also can polish a relatively brittle workpiece, and the polishing effect can also be high-precision or rough according to actual conditions.

The numerically controlled grinder generally adopts the emery wheel to polish at the in-process of polishing, but common grinding machine emery wheel position is comparatively fixed, and the removal about being inconvenient polishes the different positions of work piece, and the efficiency of polishing is relatively poor, so provides a numerically controlled grinder with truss structure, and this numerically controlled grinder installs and is provided with the truss and can drive the emery wheel and control and remove, improves the efficiency of polishing.

Disclosure of Invention

The utility model aims to provide a numerical control grinder with a truss structure, which solves the problem that the prior art is inconvenient to move left and right to polish different positions of a workpiece.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a numerically controlled grinder with truss structure, includes the processing stage body, one side of processing stage body is provided with dust removal mechanism, truss main part is installed on the top of processing stage body, the inside of truss main part is provided with lateral shifting mechanism, lateral shifting mechanism's inside is provided with flexible cylinder, flexible cylinder's bottom is provided with adjustment mechanism, adjustment mechanism's bottom is provided with second servo motor, and the emery wheel is installed to second servo motor's bottom.

Preferably, the dust removing mechanism comprises a dust collecting box, the dust collecting box is arranged on one side of the processing table body, a fan housing is movably arranged in the dust collecting box, a dust collecting fan is arranged at the bottom end of the dust collecting box, an electric rail is arranged at the top end of the dust collecting box, the fan housing is arranged at the top end of the electric rail, a corrugated hose is arranged on one side of the fan housing, the corrugated hose penetrates through the top end of the dust collecting box and extends to the inside of the collecting net, and a door body is arranged at one end of the dust collecting box.

Preferably, the cross section of the collecting net is smaller than that of the dust box, and a clamping structure is formed between the collecting net and the dust box.

Preferably, the dust collection fans are arranged in a plurality, and the dust collection fans are distributed at equal intervals at the bottom end of the dust collection box.

Preferably, the electric rail is arc-shaped and is arranged outside the processing table body.

Preferably, the adjusting mechanism comprises a mounting seat, the mounting seat is mounted at the bottom end of the transverse moving mechanism, a first servo motor is mounted at one side of the mounting seat, a rotating rod is mounted at one side of the first servo motor, the rotating rod is movably arranged in the mounting seat, a lantern ring is mounted on the outer side wall of the rotating rod, and the bottom end of the lantern ring is fixed with the top end of the second servo motor.

Preferably, the collar is fixed on the outer side wall of the rotating rod, and the collar forms a rotating structure in the installation seat through the first servo motor and the rotating rod.

Compared with the prior art, the utility model has the beneficial effects that: this numerically control grinder with truss structure is rational in infrastructure, has following advantage:

(1) Through being provided with transverse moving mechanism and truss main part, the truss main part sets up in the top of processing table body, and transverse moving mechanism is installed to the top of truss main part, can assist transverse moving mechanism's operation through the truss main part that sets up, then can drive the emery wheel of below installation and move about after transverse moving mechanism moves, polishes the different positions on polished object surface for the polishing effect of this numerically controlled grinder is better, thereby effectively improves the machining efficiency of this numerically controlled grinder;

(2) Through being provided with dust removing mechanism, the piece of polishing that this numerically controlled grinder produced when polishing to the work piece can fly upward in the sky, can be with the piece that flies upward in the in-process air of polishing and dust are collected to the inside of the collection net of dust collection box inside through being provided with the fan housing, avoid the in-process piece of polishing and the influence processing environment that flies upward of dust, realized this numerically controlled grinder has the function of dust removal, use more environmental protection.

(3) Through being provided with adjustment mechanism, adjustment mechanism sets up in transverse movement mechanism's bottom, carries out an installation connection between with the emery wheel, and adjustment mechanism can start the drive dwang rotation in the in-process adjustment mechanism of use for the dwang outside takes place the slope through the emery wheel of lantern ring installation, adjusts certain inclination with the emery wheel, thereby is convenient for polish to the different position faces of work piece, makes this numerically control grinder's practicality greatly increased.

Drawings

FIG. 1 is a schematic cross-sectional elevation view of the present utility model;

FIG. 2 is a schematic top view of the dust removing mechanism of the present utility model;

FIG. 3 is a schematic diagram of the front view of the truss of the present utility model;

FIG. 4 is a schematic side view of the adjustment mechanism of the present utility model;

fig. 5 is a schematic perspective view of the collecting net of the present utility model.

In the figure: 1. a processing table body; 2. a dust removing mechanism; 201. a dust collection fan; 202. a collection net; 203. a door body; 204. a dust collection box; 205. a fan housing; 206. a corrugated hose; 207. an electric track; 3. a truss body; 4. a lateral movement mechanism; 5. an adjusting mechanism; 501. a first servo motor; 502. a mounting base; 503. a rotating lever; 504. a collar; 6. a second servo motor; 7. grinding wheel; 8. and a telescopic cylinder.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. 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.

Referring to fig. 1-5, an embodiment of the present utility model is provided: the numerical control grinding machine with the truss structure comprises a machining table body 1, wherein a dust removing mechanism 2 is arranged on one side of the machining table body 1, a truss main body 3 is arranged at the top end of the machining table body 1, a transverse moving mechanism 4 is arranged in the truss main body 3, a telescopic cylinder 8 is arranged in the transverse moving mechanism 4, an adjusting mechanism 5 is arranged at the bottom end of the telescopic cylinder 8, a second servo motor 6 is arranged at the bottom end of the adjusting mechanism 5, and a grinding wheel 7 is arranged at the bottom end of the second servo motor 6;

specifically, as shown in fig. 1 and 3, when in use, the transverse moving mechanism 4 is started, and the transverse moving mechanism 4 drives the grinding wheel 7 to move above the truss main body 3 under the assistance of the truss main body 3, so that the grinding wheel 7 can move left and right to conveniently polish different positions of a workpiece.

The dust removing mechanism 2 comprises a dust box 204, the dust box 204 is arranged on one side of the processing table body 1, a fan cover 205 is movably arranged in the dust box 204, a dust suction fan 201 is arranged at the bottom end of the dust box 204, an electric rail 207 is arranged at the top end of the dust box 204, the electric rail 207 is arc-shaped and is arranged outside the processing table body 1, the fan cover 205 is arranged at the top end of the electric rail 207, a corrugated hose 206 is arranged on one side of the fan cover 205, and the corrugated hose 206 penetrates through the top end of the dust box 204 and extends into the collecting net 202, and a door body 203 is arranged at one end of the dust box 204;

the cross section of the collecting net 202 is smaller than that of the dust box 204, a clamping structure is formed between the collecting net 202 and the dust box 204, so that the collecting net 202 is convenient to disassemble and assemble to clean the chips and dust collected in the collecting net, and the dust collecting net is more convenient to use;

the dust collection fans 201 are arranged in a plurality, the dust collection fans 201 are distributed at equal intervals at the bottom end of the dust collection box 204, and the dust collection effect is better;

specifically, as shown in fig. 1 and 2, when in use, the dust collection fan 201 starts to suck dust and chips generated in the polishing process into the collection net 202 inside the dust collection box 204 through the bellows 206, and the dust collection fan 205 sucks dust and moves back and forth outside the processing table body 1 along with the left and right movement on the electric rail 207 to remove dust, so that the dust blowing effect is improved, the door 203 is pulled after a period of dust removal to open the dust collection box 204, then the collection net 202 is pulled to one end to separate from the dust collection box 204, and then the dust collected inside the collection net 202 is poured out, so that the collection net 202 can be installed back to the door 203 to be closed, and dust removal can be continued.

The adjusting mechanism 5 comprises an installation seat 502, the installation seat 502 is installed at the bottom end of the transverse moving mechanism 4, a first servo motor 501 is installed on one side of the installation seat 502, a rotating rod 503 is installed on one side of the first servo motor 501, the rotating rod 503 is movably arranged in the installation seat 502, a lantern ring 504 is installed on the outer side wall of the rotating rod 503, and the bottom end of the lantern ring 504 is fixed with the top end of the second servo motor 6;

the collar 504 is fixed on the outer side wall of the rotating rod 503, and the collar 504 forms a rotating structure inside the mounting seat 502 through the first servo motor 501 and the rotating rod 503;

specifically, as shown in fig. 1 and fig. 4, when in use, the first servo motor 501 is started, the first servo motor 501 drives the rotating rod 503 to rotate in the installation seat 502, the installation seat 502 rotates to drive the lantern ring 504 to rotate, so that the second servo motor 6 fixed at the bottom end of the lantern ring 504 and the grinding wheel 7 rotate to drive the grinding wheel 7 to adjust to different angles to polish different surfaces of a workpiece.

Working principle: when the numerical control grinding machine is used, a workpiece is placed above the processing table body 1 and fixed, then the transverse moving mechanism 4 is started, so that the transverse moving mechanism 4 drives the grinding wheel 7 to move above the truss main body 3, meanwhile, the second servo motor 6 is started to drive the grinding wheel 7 to rotate, the telescopic cylinder 8 pushes the rotating grinding wheel 7 to move downwards to grind different positions on the surface of the workpiece, the dust suction fan 201 is started to suck dust and scraps generated in the grinding process into the collecting net 202 inside the dust box 204 through the fan cover 205 for storage, the fan cover 205 can move back and forth outside the processing table body 1 to remove dust under the assistance of the electric rail 207, the door body 203 is pulled after dust removal for a period of time, the dust box 204 is opened, then the collecting net 202 is pulled to one end, so that the dust collected inside the collecting net 202 is poured out, the collecting net 202 can be installed back to the door body 203, the first servo motor 501 can be started to drive the rotating rod 503 to rotate when the grinding wheel 7 is ground, the rotating rod 503 drives the angle of the grinding wheel 7 to incline through the collar 504, and the grinding wheel 7 can conveniently grind the workpiece, and the grinding wheel 7 is provided with a numerical control grinding machine.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a numerically controlled grinder with truss structure, includes processing stage body (1), its characterized in that: one side of processing bench body (1) is provided with dust removal mechanism (2), truss main part (3) are installed on the top of processing bench body (1), the inside of truss main part (3) is provided with lateral shifting mechanism (4), the inside of lateral shifting mechanism (4) is provided with flexible cylinder (8), the bottom of flexible cylinder (8) is provided with adjustment mechanism (5), the bottom of adjustment mechanism (5) is provided with second servo motor (6), and grinding wheel (7) are installed to the bottom of second servo motor (6).

2. A numerically controlled grinder with truss structure as in claim 1, wherein: dust removal mechanism (2) are including dust collection box (204), dust collection box (204) are installed in one side of processing stage body (1), the inside activity of dust collection box (204) is provided with fan housing (205), dust absorption fan (201) are installed to the inside bottom of dust collection box (204), electronic track (207) are installed on the top of dust collection box (204), fan housing (205) are installed on electronic track (207) top, bellows (206) are installed to one side of fan housing (205), and bellows (206) run through in the top of dust collection box (204) and extend to the inside of collecting net (202), door body (203) are installed to one end of dust collection box (204).

3. A numerically controlled grinder with truss structure as in claim 2, wherein: the cross section of the collecting net (202) is smaller than that of the dust box (204), and a clamping structure is formed between the collecting net (202) and the dust box (204).

4. A numerically controlled grinder with truss structure as in claim 2, wherein: the dust collection fans (201) are arranged in a plurality, and the dust collection fans (201) are distributed at equal intervals at the bottom end of the dust collection box (204).

5. A numerically controlled grinder with truss structure as in claim 2, wherein: the electric rail (207) is arc-shaped and is arranged outside the processing table body (1).

6. A numerically controlled grinder with truss structure as in claim 1, wherein: adjustment mechanism (5) are including mount pad (502), mount pad (502) are installed in the bottom of lateral shifting mechanism (4), first servo motor (501) are installed to one side of mount pad (502), dwang (503) are installed to one side of first servo motor (501), and dwang (503) activity sets up in the inside of mount pad (502), lantern ring (504) are installed to the lateral wall of dwang (503), and the bottom of lantern ring (504) is fixed with the top of second servo motor (6).

7. A numerically controlled grinder with truss structure as in claim 6, wherein: the lantern ring (504) is fixed on the outer side wall of the rotating rod (503), and the lantern ring (504) forms a rotating structure in the mounting seat (502) through the first servo motor (501) and the rotating rod (503).

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