CN216967134U - High-stability anti-seismic precise vertical machining center - Google Patents

Abstract

The utility model discloses a high-stability anti-seismic precise vertical machining center, which aims to solve the technical problem that the conventional vertical machining center cannot stably and accurately run machining equipment due to the fact that the center of gravity of the conventional vertical machining center is too high and severe vibration is easy to occur in the machining process. The vertical machining center comprises an earphone shell, an auricle rubber mat arranged on the front side of the earphone shell, earplugs arranged on the front side of the auricle rubber mat, and a line control shell arranged at the lower end of the earphone shell. This vertical machining center adopts the anchor board to hang vertical machining mechanism and installs on the ceiling of factory building, utilizes the compound elastic support system that compression spring's the vertical buffer capacity that excels in cooperated multilayer base and cushion formation, avoids rocking on ground to cause vertical machining mechanism to take place the vibration, utilizes elastic mechanism's vertical deformation recovery effect, makes it can reduce the amplitude. And the device can be quickly restored to a static state, so that the stable operation of the processing equipment and the safe use of the vertical processing mechanism are ensured.

Description

High-stability anti-seismic precise vertical machining center

Technical Field

The utility model belongs to the field of machining equipment, and particularly relates to a high-stability anti-seismic precise vertical machining center.

Background

The machining center is provided with a plurality of functional devices, can process workpieces in different modes, such as cutting, stamping, polishing and the like, is a highly integrated processing system, and independently completes the complete processing of a single workpiece.

The machining center needs to keep relative stability in the operation process because of a large number of carrying devices and centralized and integrated workpiece machining processes, but as a vertical machining center system, the center of gravity of the whole structure is deviated, and the machining center continuously vibrates due to continuous feeding and discharging of workpieces and device machining vibration in the operation process, so that the operation is unstable.

Therefore, aiming at the situation that the overall structure of the vertical machining center is unstable due to the vibration of the equipment in operation, the installation structure of the vertical machining center is developed, and the situation that the various equipment carried in the machining center cannot stably and accurately operate due to the severe vibration of the machining center is prevented by utilizing the suspension type installation and the bottom damping system.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

Aiming at the defects of the prior art, the utility model aims to provide a high-stability anti-seismic precise vertical machining center, which aims to solve the technical problem that the conventional vertical machining center cannot stably and accurately operate machining equipment because the gravity center of the conventional vertical machining center is too high and severe vibration is easy to occur in the machining process.

(2) Technical scheme

In order to solve the technical problem, the utility model provides a high-stability anti-seismic precise vertical machining center which comprises a vertical machining mechanism, a multilayer base and an anchoring plate, wherein the multilayer base is installed at the lower end of the vertical machining mechanism, the anchoring plate is horizontally arranged above the vertical machining mechanism, a machining platform is horizontally installed at the right end of the vertical machining mechanism, rubber pads are vertically arranged on the inner side of the multilayer base in a layered mode, supporting lantern rings are symmetrically connected to the front and back of the upper end of the vertical machining mechanism, butt joints are symmetrically arranged at the front and back of the lower end of the anchoring plate, the butt joints are arranged above the supporting lantern rings, and compression springs are vertically connected between the supporting lantern rings and the butt joints.

When the high-stability anti-seismic precise vertical machining center adopting the technical scheme is used, a user installs the vertical machining mechanism on a ceiling through the anchoring plate, then the multi-layer base and the rubber mat form a composite structure to be supported at the lower end of the vertical machining mechanism, and when the vertical machining mechanism vibrates vertically, the static state of the equipment can be quickly recovered through the elastic recovery effect of the compression spring and the rubber mat after being stressed.

Preferably, the connecting frames are symmetrically arranged between the vertical machining mechanism and the machining platform in the front-back direction, and the knobs are installed between the connecting frames and the machining platform. The knob is rotated by hand, the machining platform is locked by utilizing the friction force between the bolt and the machining platform, and the machining platform can be adjusted to different inclination angles.

Preferably, side sliding rails are vertically installed at the front end and the rear end of the vertical machining mechanism, a clamping groove is formed in the inner end of the connecting frame, and the side sliding rails are arranged on the inner side of the clamping groove. Through the clamping limiting effect between the side sliding rail and the clamping groove, the connecting frame can stably and vertically lift.

Preferably, the rear end of the multilayer base is fixedly provided with a fixed table, the inner side of the fixed table is vertically and threadedly connected with an adjusting bolt, a supporting cross beam is fixedly connected between the left ends of the connecting frames, the supporting cross beam is arranged on the left side of the vertical machining mechanism, an adjusting screw hole is formed in the middle of the supporting cross beam, and the upper end of the adjusting bolt is threadedly connected to the inner side of the adjusting screw hole. The adjusting bolt is rotated by hand, the processing platform is vertically lifted by the thread lifting mechanism, and the butt joint with the feeding and discharging mechanism is convenient to form.

Preferably, the lower end of the vertical machining mechanism is fixedly connected with a supporting upright post, a supporting sleeve is vertically arranged on the inner side of the multilayer base, and the lower end of the supporting upright post is arranged on the inner side of the supporting sleeve. The vertical processing mechanism can stabilize the elastic deformation direction of the compression spring and the rubber mat when vibration occurs through vertical connection between the supporting upright post and the supporting sleeve.

Preferably, a telescopic groove is formed in the upper end of the vertical machining mechanism, a second telescopic groove is formed in the middle of the lower end of the anchoring plate, the first telescopic groove is formed below the second telescopic groove, and a foam plate is arranged between the first telescopic groove and the second telescopic groove. The foam board plays the elastic support guard action between vertical processing agency and the anchor board, prevents to produce vertical striking.

Preferably, the four corners of the anchoring plate are provided with anchoring screw holes, and the inner side of each anchoring screw hole is in threaded connection with an anchoring bolt. The anchoring plate is installed on the ceiling through the anchoring bolt, so that the vertical machining mechanism is in a suspended installation state.

(3) Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that: according to the high-stability anti-seismic precise vertical machining center, the vertical machining mechanism is suspended and installed on the ceiling of a factory building through the anchoring plate, the high-strength vertical buffering capacity of the compression spring is utilized to be matched with the composite elastic supporting system formed by the multiple layers of bases and the rubber mats, so that the weight of the vertical machining mechanism does not need to be completely acted on the ground, the vertical machining mechanism is prevented from vibrating due to the shaking of the ground, and when the vertical machining mechanism vibrates due to machining operation, the amplitude of the vertical machining mechanism can be reduced by utilizing the vertical deformation recovery effect of the elastic mechanism. And the device can be quickly restored to a static state, so that the stable operation of the processing equipment and the safe use of the vertical processing mechanism are ensured.

Drawings

FIG. 1 is a schematic view of an assembly structure of a high-stability anti-seismic precision vertical machining center according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of an anchoring plate in a specific embodiment of a high-stability anti-seismic precision vertical machining center according to the present invention;

FIG. 3 is a schematic structural view of a vertical machining mechanism of a specific embodiment of a highly stable anti-seismic precision vertical machining center according to the present invention;

FIG. 4 is a schematic structural view of a machining platform of a specific embodiment of a highly stable anti-seismic precision vertical machining center according to the present invention;

fig. 5 is a schematic view of a multi-layered base structure of a high-stability anti-seismic precision vertical machining center according to an embodiment of the present invention.

The symbols in the drawings are: 1. a vertical processing mechanism; 2. a multi-layer base; 3. a rubber pad; 4. a support collar; 5. an anchor plate; 6. a butt joint port; 7. a compression spring; 8. a processing platform; 9. a connecting frame; 10. a knob; 11. side slide rails; 12. a fastening groove; 13. a fixed table; 14. adjusting the bolt; 15. a support beam; 16. adjusting the screw hole; 17. supporting the upright post; 18. a support sleeve; 19. a first telescopic groove; 20. a second telescopic groove; 21. a foam board; 22. anchoring the screw hole; 23. and (6) anchoring the bolt.

Detailed Description

The specific embodiment is used for a high-stability anti-seismic precise vertical machining center, and the assembly structure schematic diagram of the center is shown in fig. 1, the anchor plate 5 is shown in fig. 2, the vertical machining mechanism 1 is shown in fig. 3, the machining platform 8 is shown in fig. 4, the multi-layer base 2 is shown in fig. 4, the vertical machining center comprises a vertical machining mechanism 1, a multilayer base 2 arranged at the lower end of the vertical machining mechanism 1, and an anchoring plate 5 horizontally arranged above the vertical machining mechanism 1, wherein a machining platform 8 is horizontally arranged at the right end of the vertical machining mechanism 1, rubber pads 3 are vertically arranged on the inner side of the multilayer base 2 in a layered manner, supporting lantern rings 4 are symmetrically connected with the front and the back of the upper end of the vertical machining mechanism 1, butt joints 6 are symmetrically arranged at the front and the back of the lower end of the anchoring plate 5, the interface 6 is arranged above the supporting lantern ring 4, and a compression spring 7 is vertically connected between the supporting lantern ring 4 and the interface 6.

Aiming at the specific embodiment, the compression spring 7 has small vertical telescopic deformation capacity, and the vertical machining mechanism 1 plays a role in buffering through the deformation of the compression spring 7 when generating a vertical vibration effect, so that the vertical amplitude is reduced, and the quick recovery of a normal static working state is facilitated.

Wherein, the connecting frames 9 are symmetrically arranged between the vertical processing mechanism 1 and the processing platform 8 in front and back, and the knobs 10 are arranged between the connecting frames 9 and the processing platform 8. The machining platform 8 can be adjusted to different inclination angles by locking the machining platform 8 by rotating the knob 10 by hand using the friction force between the bolt and the machining platform 8.

Simultaneously, both ends are vertical around the vertical processing agency 1 and install side slide rail 11, link 9 the inner is provided with buckle groove 12, side slide rail 11 sets up in buckle groove 12 inboard, 2 rear end fixed mounting of multilayer base has fixed station 13, the inboard vertical threaded connection of fixed station 13 has adjusting bolt 14, fixedly connected with supporting beam 15 between the link 9 left end, supporting beam 15 sets up in vertical processing agency 1 left side, adjusting screw 16 has been seted up in the middle of supporting beam 15, 14 upper end threaded connection of adjusting bolt are in adjusting screw 16 inboards. Through the clamping limiting effect between the side sliding rails 11 and the clamping grooves 12, the connecting frame 9 can stably and vertically lift, the adjusting bolts 14 are rotated by hands, the processing platform 8 vertically lifts by utilizing the thread lifting mechanism, and the butt joint with the feeding and discharging mechanism is convenient to form.

In addition, the lower extreme fixedly connected with support post 17 of vertical processing agency 1, the inboard vertical installation of multilayer base 2 has support sleeve 18, and support post 17 lower extreme sets up in support sleeve 18 inboard, and vertical processing agency 1 upper end has seted up flexible groove 19 No. one, is provided with flexible groove 20 No. two in the middle of the 5 lower extremes of anchor board, and flexible groove 19 sets up in flexible groove 20 below No. two, installs cystosepiment 21 between flexible groove 19 and the flexible groove 20 No. two. Vertical processing agency 1 can stabilize compression spring 7 and cushion 3's elastic deformation direction when the vibration takes place through the vertical connection between support post 17 and the support sleeve 18, and cystosepiment 21 plays the elastic support guard action between vertical processing agency 1 and the anchor board 5, prevents to produce vertical striking.

Furthermore, the four corners of the anchoring plate 5 are provided with anchoring screw holes 22, and anchoring bolts 23 are screwed inside the anchoring screw holes 22. The anchor plate 5 is attached to the ceiling by the anchor bolt 23, and the vertical processing mechanism 1 is suspended.

When the high-stability anti-seismic precise vertical machining center of the technical scheme is used, a user installs the vertical machining mechanism 1 on a ceiling through the anchoring bolt 23, then the multilayer base 2 and the rubber mat 3 form a composite structure to be supported at the lower end of the vertical machining mechanism 1, the supporting upright post 17 is installed in the supporting sleeve 18, then the knob 10 is rotated by hand to adjust the inclination angle of the machining platform 8 so as to be conveniently butted with an upper blanking mechanism, when the vertical machining mechanism 1 vibrates vertically, the vertical amplitude of the vertical machining mechanism 1 is reduced by the aid of the elastic expansion capacity of the compression spring 7, the vertical height of the multilayer base 2 is changed by the aid of the vertical extrusion force of the vertical machining mechanism 1 on the rubber mat 3 under the action of elastic recovery, the compression spring 7 deforms vertically, and meanwhile, the vertical extrusion force of the vertical machining mechanism 1 on the rubber mat 3 changes the vertical height of the multilayer base 2, the vertical processing mechanism 1 is vertically supported.

Claims (7)

1. A high-stability anti-seismic precise vertical machining center comprises a vertical machining mechanism, a multi-layer base and an anchoring plate, wherein the multi-layer base is installed at the lower end of the vertical machining mechanism; the vertical type anchor plate processing mechanism is characterized in that rubber pads are arranged on the inner sides of the multilayer bases in a vertical layered mode, a supporting lantern ring is symmetrically connected to the upper end of the vertical type processing mechanism in a front-back mode, a butt joint is symmetrically arranged on the lower end of the anchor plate in a front-back mode, the butt joint is arranged above the supporting lantern ring, and a compression spring is vertically connected between the supporting lantern ring and the butt joint.

2. The high-stability anti-seismic precise vertical machining center according to claim 1, wherein connecting frames are symmetrically arranged between the vertical machining mechanism and the machining platform in a front-back mode, and a knob is arranged between each connecting frame and the machining platform.

3. The high-stability anti-seismic precise vertical machining center according to claim 2, wherein side sliding rails are vertically installed at the front end and the rear end of the vertical machining mechanism, a clamping groove is formed in the inner end of the connecting frame, and the side sliding rails are arranged on the inner side of the clamping groove.

4. The high-stability anti-seismic precise vertical machining center according to claim 2, characterized in that a fixed table is fixedly mounted at the rear end of the multilayer base, an adjusting bolt is connected to the inner side of the fixed table through vertical threads, a supporting cross beam is fixedly connected between the left ends of the connecting frames and arranged on the left side of the vertical machining mechanism, an adjusting screw hole is formed in the middle of the supporting cross beam, and the upper end of the adjusting bolt is connected to the inner side of the adjusting screw hole through threads.

5. The high-stability anti-seismic precise vertical machining center according to claim 1, wherein the lower end of the vertical machining mechanism is fixedly connected with a support column, a support sleeve is vertically installed on the inner side of the multilayer base, and the lower end of the support column is arranged on the inner side of the support sleeve.

6. The high-stability anti-seismic precise vertical machining center according to claim 1, wherein a first telescopic groove is formed in the upper end of the vertical machining mechanism, a second telescopic groove is formed in the middle of the lower end of the anchoring plate, the first telescopic groove is formed below the second telescopic groove, and a foam plate is arranged between the first telescopic groove and the second telescopic groove.

7. The high-stability anti-seismic precise vertical machining center according to claim 1, wherein the four corners of the anchoring plates are provided with anchoring screw holes, and anchoring bolts are connected to the inner sides of the anchoring screw holes in a threaded manner.

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