CN214559679U - Single-bent glass bridge deck profiling process machining device - Google Patents

Abstract

The utility model provides a profiling process processing device for a single-bent glass bridge floor, which comprises a base, a first rotating assembly, a telescopic rotating mechanism and a roughing mechanism, wherein the first rotating assembly, the telescopic rotating mechanism and the roughing mechanism are arranged on the base; the first rotating assembly and the telescopic rotating mechanism are respectively positioned on the left side and the right side of the base, and the telescopic rotating mechanism comprises an air cylinder, a telescopic rod and a second rotating assembly connected to the end part of the telescopic rod; the first rotating assembly is connected with a jig, and a plurality of cavities are formed in the surface of the jig; after the glass is placed in the cavity, the cylinder drives the telescopic rod and the second rotating assembly to move left, so that the multiple pieces of glass are fastened between the jig and the second rotating assembly, the first rotating assembly drives the jig to rotate, and the jig and the second rotating assembly synchronously rotate to drive the multiple pieces of glass to rotate; the rough opening mechanism comprises a grinding wheel for single-curve glass processing, a third rotating assembly driving the grinding wheel to rotate reversely and a moving module driving the grinding wheel to move back and forth. The processing device can simultaneously carry out single-curve bridge deck profile modeling on a plurality of pieces of glass, and greatly improves the glass processing efficiency.

Description

Single-bent glass bridge deck profiling process machining device

Technical Field

The utility model relates to a single bent glass bridge floor contour machining technical field especially relates to a single bent glass bridge floor contour machining process processingequipment.

Background

The prior art generally introduces a corresponding 3D path program into a CNC engraving and milling machine to roughen (e.g. grind) the outer surface of each glass sheet so that the outer surface of each glass sheet can form the same curved surface in the shape of a bridge deck, thereby obtaining single-curved glass. However, the conventional single-curve glass processing apparatus has low glass processing efficiency because only one piece of glass can be processed at a time while the 3D routing program is required to be introduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the not enough of prior art, provide a single bent glass bridge floor profile modeling technology processingequipment, this processingequipment can carry out single bent bridge floor profile modeling to multi-disc glass simultaneously, can improve glass's machining efficiency greatly.

Based on the above, the utility model discloses a profiling process processing device for single-bent glass bridge deck, which comprises a base, a first rotating assembly, a telescopic rotating mechanism and a roughing mechanism, wherein the first rotating assembly, the telescopic rotating mechanism and the roughing mechanism are arranged on the base; the first rotating assembly and the telescopic rotating mechanism are respectively positioned on the left side and the right side of the base, and the telescopic rotating mechanism comprises an air cylinder, a telescopic rod and a second rotating assembly connected to the end part of the telescopic rod; the first rotating assembly is connected with a jig, and the surface of the jig is provided with a plurality of cavities which are arranged along the circumferential direction of the jig and used for placing a plurality of pieces of glass; after the glass is placed in the cavity, the cylinder sequentially drives the telescopic rod and the second rotating assembly to move leftwards, so that the multiple pieces of glass are fastened between the jig and the second rotating assembly, and the first rotating assembly drives the jig to rotate, so that the jig and the second rotating assembly can synchronously rotate to drive the multiple pieces of glass to rotate; the roughing mechanism comprises a grinding wheel for processing the outer surface of the glass in a single-curve mode, a third rotating assembly driving the grinding wheel to rotate along the second rotating assembly in the reverse direction, and a moving module driving the grinding wheel to move back and forth.

Preferably, the left surface of the jig is provided with a clamping part clamped with the first rotating assembly.

Further preferably, the right surface of the jig is provided with a plurality of cavities arranged at equal intervals along the circumferential direction of the jig.

Still further preferably, the number of cavities is 2, and each cavity can hold a piece of glass.

Preferably, the cross section of the jig is circular, and the diameter of the jig is far larger than that of the telescopic rod.

Preferably, the side of the cavity is provided with a recess for the removal and/or placement of glass.

Compared with the prior art, the utility model discloses at least, including following beneficial effect:

during processing, the glass is firstly placed in the cavities of the jig, and each cavity can be used for placing a piece of glass; therefore, a plurality of pieces of glass can be correspondingly placed in the cavities; then, the cylinder drives the telescopic rod to move leftwards, so that the telescopic rod drives the second rotating assembly to move leftwards to the outer surfaces of the glass sheets, and therefore the glass sheets can be fastened between the jig and the second rotating assembly, and the glass sheets can be fixed; then, the first rotating assembly drives the jig to rotate, so that the jig can synchronously rotate with the second rotating assembly to drive the plurality of pieces of glass to rotate together, at the moment, the moving module drives the grinding wheel to move forwards to the outer surface of the glass, and the third rotating assembly drives the grinding wheel to rotate in the direction opposite to the direction of rotation of the second rotating assembly; therefore, the grinding wheel can simultaneously perform single-curve bridge deck profile modeling on a plurality of pieces of glass, so that a plurality of pieces of single-curve glass can be obtained simultaneously, the processing efficiency of the glass is greatly improved, the processing period is shortened, and the processing cost is reduced.

Drawings

FIG. 1 is a schematic structural diagram of a profiling processing device for a single-curved glass bridge deck.

Fig. 2 is a schematic structural diagram of the left side of the jig.

Fig. 3 is a schematic structural diagram of the right side of the jig.

The reference numbers illustrate: 1, a base; 2 a first rotating assembly; 21, a jig; 211 a cavity; 212 a recessed portion; 213 a clip portion; 3, a telescopic rotating mechanism; 31 air cylinders; 32 telescopic rods; 33 a second rotating assembly; 4, opening a coarse mechanism; 41 grinding wheel; 42 a third rotating assembly; 43 a moving module; 5 glass.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

The utility model discloses a single bent glass bridge floor profile modeling technology processingequipment, refer to fig. 1-2, including base 1, and install in base 1's first rotating component 2, flexible rotary mechanism 3 and open thick mechanism 4. Wherein, the first rotating assembly 2, the telescopic rotating mechanism 3 and the coarse opening mechanism 4 can be controlled by an external controller to work.

The first rotating assembly 2 and the telescopic rotating mechanism 3 are respectively located on the left and the right of the base 1, and the telescopic rotating mechanism 3 comprises a cylinder 31, a telescopic rod 32 and a second rotating assembly 33 connected to the left end of the telescopic rod 32.

The first rotating assembly 2 is connected with a jig 21 in a clamping manner, the left side of the jig 21 is provided with a clamping portion 213 (shown in fig. 3) connected with the first rotating assembly 2 in a clamping manner, and the right side of the jig 21 is provided with a plurality of cavities 211 arranged at equal intervals along the circumferential direction of the jig 21 and used for placing a plurality of pieces of glass 5.

During processing, the glass 5 is firstly placed in the cavities 211 of the jig 21, and one piece of glass 5 can be placed in each cavity 211; so, a plurality of cavities 211 can correspond and place multi-piece glass 5, and glass 5 is put behind cavity 211, with the joint portion 213 joint of tool 21 in the right-hand member portion of first rotating assembly 2, then, cylinder 31 drive telescopic link 32 moves left to make telescopic link 32 drive second rotating assembly 33 move left to multi-piece glass 5's surface, like this, can fasten multi-piece glass 5 between tool 21 and second rotating assembly 33, with the realization simultaneously to multi-piece glass 5's fixed.

The roughing mechanism 4 includes a grinding wheel 41 for single-curve processing of the outer surface of the glass 5, a third rotating assembly 42 for driving the grinding wheel 41 to rotate in the reverse direction along the second rotating assembly 33, and a moving module 43 for driving the grinding wheel 41 to move back and forth. The cross section of the jig 21 is circular, and the diameter of the jig 21 is much larger than that of the telescopic rod 32. After the glass 5 is placed in the cavity 211, the outer surface of the glass 5 protrudes out of the outer surface of the jig 21, and the diameter of the jig 21 is much larger than that of the telescopic rod 32, so that the grinding wheel 41 can move forwards to the outer surface of the glass 5 on the rear side of the telescopic rod 32 through the moving module 43, and the grinding wheel 41 can perform rough machining on the outer surface of the glass 5.

After the multiple pieces of glass 5 are respectively placed in the corresponding cavities 211, the first rotating assembly 2 drives the jig 21 to rotate, so that the jig 21 and the second rotating assembly 33 can synchronously rotate to drive the multiple pieces of glass 5 to rotate together, at this time, the moving module 43 drives the grinding wheel 41 to move forwards to the outer surface of the glass 5, and the third rotating assembly 42 drives the grinding wheel 41 to rotate in the direction opposite to the direction of rotation of the second rotating assembly 33; therefore, the grinding wheel 41 can simultaneously carry out single-curve bridge surface profiling on the plurality of pieces of glass 5, so that the plurality of pieces of single-curve glass 5 can be obtained simultaneously, the processing efficiency of the glass 5 can be greatly improved, the processing period is shortened, and the processing cost is reduced. The number of cavities 211 can be set according to actual needs. Specifically, the number of the cavities 211 is 2, and one piece of glass 5 can be placed in each cavity 211.

Wherein the side of the cavity 211 is provided with a recess 212 for taking out and/or placing the glass 5. The operator can smoothly take out the glass 5 placed in the cavity 211 from the recess 212, so that the glass 5 is not easily taken out due to the glass 5 being stuck in the cavity 211.

While preferred embodiments of the present invention have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all changes and modifications that fall within the scope of the embodiments of the invention.

The technical solution provided by the present invention is described in detail above, and the principle and the implementation of the present invention are explained by applying specific examples, and the description of the above examples is only used to help understanding the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (6)

1. A single-bent glass bridge deck profiling process processing device is characterized by comprising a base, a first rotating assembly, a telescopic rotating mechanism and a roughing mechanism, wherein the first rotating assembly, the telescopic rotating mechanism and the roughing mechanism are mounted on the base; the first rotating assembly and the telescopic rotating mechanism are respectively positioned on the left side and the right side of the base, and the telescopic rotating mechanism comprises an air cylinder, a telescopic rod and a second rotating assembly connected to the end part of the telescopic rod; the first rotating assembly is connected with a jig, and the surface of the jig is provided with a plurality of cavities which are arranged along the circumferential direction of the jig and used for placing a plurality of pieces of glass; after the glass is placed in the cavity, the cylinder sequentially drives the telescopic rod and the second rotating assembly to move leftwards, so that the multiple pieces of glass are fastened between the jig and the second rotating assembly, and the first rotating assembly drives the jig to rotate, so that the jig and the second rotating assembly can synchronously rotate to drive the multiple pieces of glass to rotate; the roughing mechanism comprises a grinding wheel for processing the outer surface of the glass in a single-curve mode, a third rotating assembly driving the grinding wheel to rotate along the second rotating assembly in the reverse direction, and a moving module driving the grinding wheel to move back and forth.

2. The profiling process machining device for the single-bent glass bridge deck according to claim 1, wherein a clamping portion clamped to the first rotating assembly is arranged on the left surface of the jig.

3. The profiling process machining device for the single-bent glass bridge deck as claimed in claim 2, wherein the right side of the jig is provided with a plurality of cavities which are arranged at equal intervals along the circumference of the jig.

4. A profiling process machining device for single curved glass bridge decks according to claim 3 wherein the number of cavities is 2, each cavity capable of holding a piece of glass.

5. The profiling processing device for the single-bent glass bridge deck according to claim 1, wherein the cross section of the jig is circular, and the diameter of the jig is far larger than that of the telescopic rod.

6. A profiling process for single curved glass bridge decks according to claim 1 wherein the sides of the cavity are provided with depressions for glass removal and/or placement.

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