CN219337167U - Small glass edging machine - Google Patents

Abstract

The utility model discloses a small glass edging machine, which comprises a glass bearing table, wherein glass to be processed is placed on the glass bearing table; the two sides of the bearing table are respectively provided with a first leaning wheel and a second leaning wheel; the first leaning wheel and the second leaning wheel are clamped and matched to limit the lateral movement of the glass to be processed; the first leaning wheels are provided with a plurality of groups at intervals, and grinding wheels are arranged in interval areas among the groups of first leaning wheels; the second leaning wheel corresponds to the grinding wheel in position in the clamping direction; the second leaning wheel and the grinding wheel have the technical advantages that clamping pressing force from the second leaning wheel can be stably transmitted to the grinding wheel, so that one end of glass to be processed is prevented from being pressed more than the other end and slightly deflected relative to a grinding contact point of the grinding wheel, and the grinding uniformity of the glass edge is improved; through the unilateral edging design of quick centre gripping location, improve machining operation efficiency when guaranteeing positioning stability and polishing effect.

Description

Small glass edging machine

Technical Field

The utility model relates to the field of edge grinding machines, in particular to a small glass edge grinding machine.

Background

In glass production, the dimensional differences of different specifications are large. The large-size glass sample is usually processed by a double-sided edging machine, but for the small-size glass sample, the double-sided edging machine lacks targeted optimization, and multiple persons are needed to cooperate in edging work, so that the production efficiency is low, edging production capacity of the large-size glass is occupied, and batch-mispriming order fault tolerance is poor. It is necessary to design a small glass edging machine.

Disclosure of Invention

The utility model aims to: in order to overcome the defects in the prior art, the utility model provides a small glass edging machine, which improves the processing operation efficiency while ensuring the positioning stability and the polishing effect through a single-side edging design of quick clamping and positioning.

The technical scheme is as follows: in order to achieve the above object, the small glass edge grinder of the present utility model comprises a glass bearing table on which glass to be processed is placed; a first leaning wheel and a second leaning wheel are respectively arranged on two sides of the bearing table; the first leaning wheel and the second leaning wheel are clamped and matched to limit the lateral movement of the glass to be processed; the first leaning wheels are provided with a plurality of groups at intervals, and grinding wheels are arranged in interval areas among the groups of first leaning wheels; the second leaning wheel corresponds to the grinding wheel in position in the clamping direction.

Further, the bearing table comprises a synchronous belt, and the top of the synchronous belt is in bearing contact with glass to be processed; the synchronous belt runs in the clamping area of the first leaning wheel and the second leaning wheel, and drives the glass to move linearly along the distribution direction of the first leaning wheel.

Further, the central area outside the upper belt surface of the synchronous belt is recessed inwards, so that the cross section of the belt surface is of a U-shaped structure.

Furthermore, the synchronous belts are arranged in parallel at intervals, and the synchronous belts are mutually linked.

Further, the device also comprises a driver; the driver is connected with a moving frame, the second leaning wheel is arranged on the moving frame and driven by the driver to linearly reciprocate; the glass bearing table surface is provided with a backup plate towards one side of the second leaning wheel, and the backup plate is correspondingly blocked and arranged on the moving path of the moving frame to limit the travel of the moving frame.

Further, the grinding wheel can reciprocate an adjusting position along the clamping direction of the first leaning wheel and the second leaning wheel.

The beneficial effects are that: (1) The utility model relates to a small glass edging machine, which comprises a glass bearing table, wherein glass to be processed is placed on the glass bearing table; the two sides of the bearing table are respectively provided with a first leaning wheel and a second leaning wheel; the first leaning wheel and the second leaning wheel are clamped and matched to limit the lateral movement of the glass to be processed; the first leaning wheels are provided with a plurality of groups at intervals, and grinding wheels are arranged in interval areas among the groups of first leaning wheels; the second leaning wheel corresponds to the grinding wheel in position in the clamping direction; the second leaning wheel and the grinding wheel have the technical advantages that clamping pressing force from the second leaning wheel can be stably transmitted to the grinding wheel, so that one end of glass to be processed is prevented from being pressed more than the other end and slightly deflected relative to a grinding contact point of the grinding wheel, and the grinding uniformity of the glass edge is improved; through the design of single-side edging of quick clamping and positioning, the machining operation efficiency is improved while the positioning stability and the polishing effect are ensured; (2) The utility model relates to a small glass edging machine, wherein a bearing table comprises a synchronous belt, and the top of the synchronous belt is in bearing contact with glass to be processed; the synchronous belt runs in the clamping area of the first leaning wheel and the second leaning wheel, and drives the glass to move linearly along the distribution direction of the first leaning wheel; the synchronous belt has the advantages that glass to be processed can move in a clamped state, so that the side of the grinding wheel can be continuously polished, and compared with manual pushing and pulling, time and labor are saved; (3) According to the small glass edging machine, the central area outside the upper belt surface of the synchronous belt is recessed inwards, so that the section of the belt surface is of a U-shaped structure; the U-shaped belt surface can enable two side edges of the belt to be two stable bearing areas, so that the belt surface is tightly attached to glass to be processed, fine powder and fine scraps can be contained in the concave central area of the belt surface, and the influence of fine scraping on the side surface of the glass in polishing is reduced.

Drawings

FIG. 1 is a schematic view of the whole structure of a small glass edging machine of the utility model.

The reference numerals in the drawings are as follows:

1. the glass bearing table comprises a glass bearing table body 2, a first bearing wheel, a second bearing wheel 3, a synchronous belt 4, a driver 5, a moving frame 6, a moving frame 7, a backup plate 8, a motor 9, a transmission shaft 10 and a grinding wheel.

Detailed Description

The utility model will be further described with reference to the accompanying drawings.

As shown in fig. 1, a small glass edging machine comprises a glass bearing table 1, wherein glass to be processed is placed on the glass bearing table 1; the two sides of the bearing table 1 are respectively provided with a first leaning wheel 2 and a second leaning wheel 3; the first leaning wheel 2 and the second leaning wheel 3 are clamped and matched to limit the lateral movement of the glass to be processed; the first leaning wheels 2 are provided with a plurality of groups at intervals, and grinding wheels 10 are arranged in the interval areas among the groups of the first leaning wheels 2; the second backing wheel 3 corresponds in its gripping direction to the position of the grinding wheel 10.

Fig. 1 shows the structure of a small glass edging machine from a top view. When the edge grinding machine is used, firstly, glass to be processed is placed on a glass bearing table 1, one side of the glass to be processed is attached to a first leaning wheel 2, and then a second leaning wheel 3 is moved to be attached to the edge of the other side of the glass to be processed, so that clamping action is completed; after being clamped, the glass to be processed can linearly reciprocate along the guiding direction of the leaning wheel structure, so that one side corresponding to the first leaning wheel 2 can be contacted with the grinding wheel 10, and the edging processing of the side is finished; then the glass to be processed is rotated to enable the side edge which is not polished to be switched to the side where the grinding wheel 10 is located, and the polishing process of the periphery of the edge can be completed through repetition; the second leaning wheel 3 and the grinding wheel 10 have the advantages that the clamping pressing force from the second leaning wheel 3 can be smoothly transmitted to the grinding wheel 10, the situation that one end of the glass to be processed is pressed more than the other end and slightly deflects relative to the grinding contact point of the grinding wheel 10 is avoided, and the grinding uniformity of the glass edge is improved. The small glass edging machine adopts a unilateral polishing design, is reasonably simplified aiming at the characteristics of convenient taking and azimuth adjustment of small glass, and can finish the processes of clamping and positioning, unilateral polishing and edge changing polishing by only one operator, wherein the applicable glass size is 300 x 300mm. The grinding wheel 10 in the drawing is indicated by a broken line circle, and a solid circle inside the broken line circle is a grinding wheel motor, which is provided on the top of the grinding wheel 10 to drive the grinding wheel to rotate. The preferable matching mode of the first leaning wheels 2 and the second leaning wheels 3 is that two groups of the first leaning wheels 2 are matched with one group of the second leaning wheels 3 in the figure, so that three-point leaning can be formed with glass, and stable clamping effect is obtained by means of a triangular distribution mode; a knuckle nozzle water pipe can be arranged near the grinding wheel 10 for spray cooling.

The bearing table 1 comprises a synchronous belt 4, and the top of the synchronous belt 4 is in bearing contact with glass to be processed; the synchronous belt 4 runs in the clamping area of the first leaning wheel 2 and the second leaning wheel 3, and drives the glass to move linearly along the distribution direction of the first leaning wheel 2.

The synchronous belt 4 has the function of enabling the glass to be processed to move in a clamped state, so that the grinding wheel 10 can continuously grind the side edges, and compared with manual push-pull, the synchronous belt has the advantages of labor saving and high efficiency. It can be seen from the figure that the synchronous belt 4 is driven to rotate by means of a synchronous pulley, the synchronous pulley is arranged on a transmission shaft 9, and the transmission shaft 9 is in transmission connection with the power output end of the motor 8, so that the synchronous belt 4 can work by means of the power of the motor.

The central area of the outer side of the upper belt surface of the synchronous belt 4 is recessed inwards, so that the cross section of the belt surface is of a U-shaped structure.

The U-shaped belt surface can enable two side edges of the belt to be two stable bearing areas, so that the belt surface is tightly attached to glass to be processed, fine powder and fine scraps can be contained in the concave central area of the belt surface, and the influence of fine scraping on the side surface of the glass in polishing is reduced. The U-shaped shape of the belt surface can be realized by means of the concave outline of the synchronous pulley, and the belt surface is attached to the synchronous pulley after being tensioned, so that a concave area is correspondingly formed at the concave outline.

The synchronous belts 4 are arranged in parallel at intervals, and the synchronous belts 4 are mutually linked.

The plurality of synchronous belts 4 can provide bearing areas uniformly distributed for glass on a plurality of narrow-band surfaces, and the glass with different sizes can be adapted by adjusting the number and the interval of the synchronous belts 4, so that the adaptability of the edge grinder is improved.

Further comprising a driver 5; the driver 5 is connected with a movable frame 6, the second leaning wheel 3 is arranged on the movable frame 6, and the second leaning wheel is driven by the driver 5 to linearly reciprocate; the glass bearing table 1 is provided with a backup plate 7 on one side facing the second leaning wheel 3, and the backup plate 7 is correspondingly blocked and arranged on the moving path of the moving frame 6 to limit the travel of the moving frame 6.

The driver 5 can specifically adopt a hydraulic oil cylinder, an electric telescopic rod and other parts, and is used for driving the movable frame 6 to linearly reciprocate in the telescopic direction; the second leaning wheel 3 on the moving frame 6 realizes clamping and disengaging actions with the first leaning wheel 2 in the reciprocating movement; the backup plate 7 provides travel constraint for the movable frame 6, so that the conveyer belt 4 and structures such as a motor 8, a transmission shaft 9 and the like matched with the conveyer belt 4 are prevented from being damaged when the movable frame 6 is too close to the first backup wheel 2.

The grinding wheel 10 can be reciprocally moved in the clamping direction of the first and second backing wheels 2, 3 to adjust the position.

In the polishing process, the grinding wheel can be replaced by components with different materials and different wheel diameters according to the requirements of parameters such as roughness, hardness and the like of polishing operation, and the mounting seat of the matched grinding wheel motor can be adjusted in a reciprocating manner along the clamping direction of the first leaning wheel 2 and the second leaning wheel 3, so that the grinding wheel can adapt to grinding wheels 10 with different sizes, and the processing adaptability of equipment is further improved.

The foregoing is only a preferred embodiment of the utility model, it being noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present utility model, and such modifications and adaptations are intended to be comprehended within the scope of the utility model.

Claims (6)

1. A small-size glass edging machine, its characterized in that: comprises a glass bearing table (1), wherein glass to be processed is placed on the glass bearing table (1); the two sides of the bearing table (1) are respectively provided with a first leaning wheel (2) and a second leaning wheel (3); the first leaning wheel (2) and the second leaning wheel (3) are clamped and matched to limit the lateral movement of the glass to be processed; the first leaning wheels (2) are provided with a plurality of groups at intervals, and grinding wheels (10) are arranged in the interval areas among the groups of the first leaning wheels (2); the second leaning wheel (3) corresponds to the grinding wheel (10) in position in the clamping direction.

2. The small glass edging machine of claim 1, characterized in that: the bearing table (1) comprises a synchronous belt (4), and the top of the synchronous belt (4) is in bearing contact with glass to be processed; the synchronous belt (4) runs in the clamping area of the first leaning wheel (2) and the second leaning wheel (3) and drives glass to linearly move along the distribution direction of the first leaning wheel (2).

3. The small glass edging machine of claim 2, characterized in that: the central area of the outer side of the upper belt surface of the synchronous belt (4) is recessed inwards, so that the cross section of the belt surface is of a U-shaped structure.

4. A small glass edging machine according to claim 3, characterized in that: the synchronous belts (4) are arranged in parallel at intervals, and the synchronous belts (4) are mutually linked.

5. The small glass edging machine of claim 1, characterized in that: further comprising a driver (5); the driver (5) is connected with a movable frame (6), the second leaning wheel (3) is arranged on the movable frame (6), and the second leaning wheel is driven by the driver (5) to linearly reciprocate; one side of the glass bearing table (1) facing the second leaning wheel (3) is provided with a leaning plate (7), and the leaning plate (7) is correspondingly blocked on the moving path of the moving frame (6) to limit the travel of the moving frame (6).

6. The small glass edging machine of claim 1, characterized in that: the grinding wheel (10) can reciprocate an adjusting position along the clamping direction of the first leaning wheel (2) and the second leaning wheel (3).

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