CN212665714U - Grinding machine for numerical control die - Google Patents

Abstract

The utility model provides a polisher for numerical control mould, the utility model relates to a polisher technical field for numerical control mould's polisher includes: the left side of the upper surface of the workbench is fixedly provided with an electric lifting rod, the bottom of the electric lifting rod is fixedly provided with a support plate, the bottom of the support plate is provided with a protective cover, the inner wall of the protective cover is fixedly provided with sound-absorbing sponge, the bottom of the protective cover is bonded with a rubber ring, a connecting pipe is welded below the right side of the protective cover, the head end of the connecting pipe penetrates through the protective cover and the inner wall of the sound-absorbing sponge, the connecting pipe is communicated with the interior of the protective cover, and the tail end; the beneficial effects of the utility model reside in that: the dust collecting box has the advantages that the dust collecting box can prevent workers from touching the polishing wheel which is used for polishing, and can keep the scraps generated by polishing in the protecting cover, so that the working environment is safe and clean, the scraps in the protecting cover can be sucked into the dust collecting box in time, the polishing effect of the polishing wheel can be guaranteed, and the noise in the protecting cover can be reduced.

Description

Grinding machine for numerical control die

Technical Field

The utility model belongs to the technical field of the polisher technique and specifically relates to a polisher for numerical control mould is related to.

Background

Numerical control technology, which is simply numerical control, is a technology for automatically controlling a certain working process by adopting a numerical control method. It controls mechanical quantities, typically position, angle, speed, etc., and switching quantities related to the flow of mechanical energy. The generation of numerical control relies on the presence of data carriers and binary form data operations.

The existing polisher for the numerical control mold has the advantages that scraps generated by polishing of the numerical control mold can splash to a working environment, the environment can be polluted, potential safety hazards exist, large noise can be generated during polishing, the working environment is influenced, and workers can be influenced by health for a long time under the environment.

SUMMERY OF THE UTILITY MODEL

The utility model provides a polisher for numerical control mould can prevent that the staff from touching the wheel of polishing that is in polishing, can keep off the bits that produce of polishing in the guard shield for operational environment safety, cleanness can in time be with the bits end inspiration dust collection box in the guard shield in, thereby can guarantee the effect of polishing of wheel of polishing, can reduce the noise in the guard shield, with the problem of proposing in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a grinder for a numerically controlled mold, the grinder for a numerically controlled mold comprising:

the workstation, workstation upper surface left side is fixed with electric lift rod, electric lift rod bottom is fixed with the extension board, the safety cover is installed to the extension board bottom, the safety cover inner wall is fixed with inhales the sound sponge, just the safety cover bottom bonds and has the rubber ring, safety cover right side below butt fusion has the connecting pipe, the connecting pipe head end runs through the safety cover and inhales the sound sponge inner wall, just the connecting pipe communicates with each other with the safety cover is inside, the connecting pipe tail end is fixed with rather than communicating dust absorption pipe, the workstation upper surface has the dust collection box by right-hand embedding, dust absorption pipe end embedding dust collection box top rather than communicating.

Preferably, a vacuum pump is fixed on the right side of the upper surface of the workbench, an exhaust pipe communicated with the vacuum pump is fixed at the left end of the vacuum pump, and the left end of the exhaust pipe is inserted into the right side of the dust collection box and communicated with the dust collection box.

Preferably, a motor is fixed at the bottom of the support plate, a rotating shaft is rotatably connected to the bottom of the motor, and a grinding wheel is fixed at the bottom end of the rotating shaft.

Preferably, the motor, the rotating shaft and the grinding wheel are all located in the protective cover, and the bottom of the grinding wheel is flush with the bottom of the rubber ring.

Preferably, a fixing plate is fixed in the middle of the upper surface of the workbench, the fixing plate is located under the polishing wheel, and an anti-slip pad is embedded in the upper portion of the fixing plate.

Preferably, the left side and the right side of the upper surface of the fixing plate are respectively fixed with a corresponding clamp, and the clamps do not contact the anti-skid pad.

Preferably, the protective cover is made of steel.

Compared with the prior art, the beneficial effects of the utility model are that:

according to the polisher for the numerical control mold, the bottom of the polishing wheel is flush with the bottom of the rubber ring, so that the polishing wheel and the rubber ring can be in contact with the numerical control mold at the same time, and further a protective cover is in a closed state, so that scraps generated by polishing are blocked in the protective cover, and the working environment is safe and clean;

the air outlet pipe is arranged at the right end of the vacuum pump, when the numerical control die is polished, the vacuum pump is started, air in the dust collection box can be pumped into the vacuum pump through the air exhaust pipe and then exhausted through the air outlet pipe on the vacuum pump, so that the dust collection box can be pumped into a vacuum state, the air pressure is zero, the air pressure in the dust collection box is smaller than the air pressure in the protective cover, scraps in the protective cover can be sucked into the dust collection box in time through the connecting pipe and the dust suction pipe, and the polishing effect of the polishing wheel can be further ensured;

the polishing wheel can produce great noise at the in-process of polishing, inhales the sound sponge and has good sound effect of inhaling to can reduce the noise in the safety cover, connecting pipe and dust absorption pipe dust absorption in-process also can slowly take the air in the safety cover out, but the propagation medium of less noise, and then reach the effect of noise reduction.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of a three-dimensional structure of the protective cover of the present invention;

fig. 3 is a schematic view of a local structure of the protection cover a of the present invention.

The labels in the figure are: 1-a workbench; 2-an electric lifting rod; 3-a support plate; 4-a protective cover; 5-an electric motor; 6-grinding the wheel; 7-fixing the plate; 8-a non-slip mat; 9-a clamp; 10-a dust collection box; 11-a rotating shaft; 12-a dust suction pipe; 13-a vacuum pump; 14-an extraction tube; 15-sound-absorbing sponge; 16-a rubber ring; 17-connecting pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

As shown in fig. 1 to 3, a grinder for a numerical control mold includes:

an electric lifting rod 2 is fixed on the left side of the upper surface of a workbench 1, a support plate 3 is fixed at the bottom of the electric lifting rod 2, a motor 5 is fixed at the bottom of the support plate 3, the bottom of the motor 5 is rotatably connected with a rotating shaft 11, a polishing wheel 6 is fixed at the bottom end of the rotating shaft 11, a fixed plate 7 is fixed at the middle part of the upper surface of the workbench 1, the fixed plate 7 is positioned under the polishing wheel 6, a non-slip mat 8 is embedded above the fixed plate 7, corresponding clamps 9 are fixed on the left side and the right side of the upper surface of the fixed plate 7, and the clamps 9 are not in contact with the non-slip mat 8;

specifically, an electric cylinder is arranged in the electric lifting rod 2, when workers need to polish the numerical control mold, the numerical control mold is fixed on the fixing plate 7 through the clamp 9, then the electric cylinder is powered on, the electric lifting rod 2 is driven to contract inwards to enable the support plate 3 to move downwards, so that the motor 5, the rotating shaft 11 and the polishing wheel 6 at the bottom of the support plate 3 can be driven to move downwards, when the polishing wheel 6 is in contact with the upper surface of the numerical control mold, the motor 5 is started to drive the rotating shaft 11 and the polishing wheel 6 to rotate, the polishing wheel 6 can polish the upper surface of the numerical control mold, the anti-skid degree of the upper surface of the fixing plate 7 is increased by the anti-skid pad 8, and the workers can fix the numerical control mold conveniently;

the protection cover 4 is installed at the bottom of the support plate 3, sound-absorbing sponge 15 is fixed on the inner wall of the protection cover 4, a rubber ring 16 is bonded at the bottom of the protection cover 4, a connecting pipe 17 is welded below the right side of the protection cover 4, the head end of the connecting pipe 17 penetrates through the protection cover 4 and the inner wall of the sound-absorbing sponge 15, the connecting pipe 17 is communicated with the inside of the protection cover 4, a dust-absorbing pipe 12 communicated with the connecting pipe 17 is fixed at the tail end of the connecting pipe 17, a dust-collecting box 10 is embedded into the upper surface of the workbench 1 by the right side, the tail end of the dust-absorbing pipe 12 is embedded into the top of the dust-collecting box 10 and communicated with the dust-collecting box, a vacuum pump 13 is fixed on the right side of the upper surface of the workbench 1, an exhaust pipe 14 communicated with the vacuum pump 13 is fixed at the left end of the vacuum, the bottom of the grinding wheel 6 is flush with the bottom of the rubber ring 16, and the protective cover 4 is made of steel;

specifically, the bottom of the polishing wheel 6 is flush with the bottom of the rubber ring 16, so that the polishing wheel 6 and the rubber ring 16 can be in contact with a numerical control mold at the same time, and further the protective cover 4 is in a closed state, so that scraps generated by polishing are blocked in the protective cover 4, and the working environment is safe and clean;

an air outlet pipe is arranged at the right end of the vacuum pump 13, when the numerical control die is polished, the vacuum pump 13 is started, air in the dust collection box 10 can be pumped into the vacuum pump 13 through the air exhaust pipe 14 and then exhausted through the vacuum pump 13 on the vacuum pump 13, the dust collection box 10 can be pumped into a vacuum state, the air pressure is zero, therefore, the air pressure in the dust collection box 10 is smaller than that in the protective cover 4, scraps in the protective cover 4 can be sucked into the dust collection box 10 in time through the connecting pipe 17 and the dust suction pipe 12, and the polishing effect of the polishing wheel 6 can be further ensured;

the polishing wheel 6 can produce great noise in the process of polishing, and the sound absorbing sponge 15 has good sound absorbing effect, so that the noise in the protective cover 4 can be reduced, the air in the protective cover 4 can be slowly pumped out in the dust absorbing process of the connecting pipe 17 and the dust absorbing pipe 12, the noise can be reduced, and the noise reduction effect can be achieved.

It should be understood that any modification, equivalent replacement, and improvement made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (7)

1. A sander for a numerically controlled mold, the sander comprising:

a workbench (1), an electric lifting rod (2) is fixed on the left side of the upper surface of the workbench (1), a support plate (3) is fixed at the bottom of the electric lifting rod (2), a protective cover (4) is installed at the bottom of the support plate (3), a sound-absorbing sponge (15) is fixed on the inner wall of the protective cover (4), a rubber ring (16) is bonded at the bottom of the protective cover (4), a connecting pipe (17) is welded at the lower part of the right side of the protective cover (4), the head end of the connecting pipe (17) penetrates through the protective cover (4) and the inner wall of the sound-absorbing sponge (15), the connecting pipe (17) is communicated with the interior of the protective cover (4), the tail end of the connecting pipe (17) is fixed with a dust collecting pipe (12) communicated with the connecting pipe, the dust collection box (10) is embedded in the upper surface of the workbench (1) close to the right, and the tail end of the dust collection pipe (12) is embedded in the top of the dust collection box (10) and communicated with the dust collection box.

2. The sander for a digitally controlled mold according to claim 1, wherein: a vacuum pump (13) is fixed on the right side of the upper surface of the workbench (1), an exhaust pipe (14) communicated with the vacuum pump (13) is fixed at the left end of the vacuum pump (13), and the left end of the exhaust pipe (14) is inserted into the right side of the dust collection box (10) and communicated with the dust collection box.

3. The sander for a digitally controlled mold according to claim 1, wherein: the grinding wheel is characterized in that a motor (5) is fixed at the bottom of the support plate (3), a rotating shaft (11) is rotatably connected to the bottom of the motor (5), and a grinding wheel (6) is fixed at the bottom end of the rotating shaft (11).

4. A sander for a digitally controlled mold according to claim 3, wherein: the motor (5), the rotating shaft (11) and the grinding wheel (6) are all located in the protective cover (4), and the bottom of the grinding wheel (6) is flush with the bottom of the rubber ring (16).

5. The grinding machine for the numerical control mold according to claim 4, characterized in that: a fixing plate (7) is fixed in the middle of the upper surface of the workbench (1), the fixing plate (7) is located under the polishing wheel (6), and an anti-skid pad (8) is embedded in the upper portion of the fixing plate (7).

6. The sander for a digitally controlled mold according to claim 5, wherein: the left side and the right side of the upper surface of the fixing plate (7) are fixed with corresponding clamps (9), and the clamps (9) do not contact the anti-skid pad (8).

7. The sander for a digitally controlled mold according to claim 1, wherein: the protective cover (4) is made of steel.

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