CN212762624U - Automatic change glass fiber insulating tube burring equipment - Google Patents

Abstract

The utility model belongs to the technical field of glass fiber insulating tube processing equipment and specifically relates to automatic change glass fiber insulating tube burring equipment. The deburring equipment comprises a machine table, a positioning plate, a rotating clamping jaw, a supporting seat, an X-axis horizontal linear driving mechanism, a Y-axis horizontal linear driving mechanism, a lifting mechanism and a rotating friction mechanism, wherein the positioning plate is connected with the machine table in a sliding mode, the rotating clamping jaw is fixed at one end of the positioning plate, the supporting seat is fixed at the other end of the positioning plate, and the X-axis horizontal linear driving mechanism and the Y-axis horizontal linear driving mechanism are fixed on the machine table. The utility model discloses a fix a position and rotatory glass fiber insulating tube through rotatory clamping jaw of locating plate cooperation and bearing. The rotating friction mechanism is driven to move horizontally and vertically by the Y-axis horizontal linear driving mechanism and the lifting mechanism. The burr on the insulating tube is polished by rotating the friction mechanism. The positioning plate is driven to horizontally and linearly move by the X-axis horizontal linear driving mechanism. This application has improved the efficiency of insulating tube burring.

Description

Automatic change glass fiber insulating tube burring equipment

Technical Field

The utility model belongs to the technical field of glass fiber insulating tube processing equipment and specifically relates to automatic change glass fiber insulating tube burring equipment.

Background

After the glass fiber insulating tube is produced and formed, the surface of the tube needs to be subjected to deburring treatment. The prior art deburring works less efficiently.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of current burring inefficiency, the utility model provides an automatic change glass fiber insulating tube burring equipment.

The utility model provides a technical scheme that its technical problem adopted is: the automatic deburring equipment for the glass fiber insulating tube comprises a machine table, a positioning plate, a rotating clamping jaw, a supporting seat, an X-axis horizontal linear driving mechanism, a Y-axis horizontal linear driving mechanism, a lifting mechanism and a rotating friction mechanism, wherein the positioning plate is connected with the machine table in a sliding fit mode, the rotating clamping jaw is fixed at one end of the positioning plate, the supporting seat is fixed at the other end of the positioning plate, the X-axis horizontal linear driving mechanism and the Y-axis horizontal linear driving mechanism are fixed on the machine table, the Y-axis horizontal linear driving mechanism is located above the positioning plate, the lifting mechanism is fixed on a sliding seat of the Y-axis horizontal linear driving mechanism, the rotating friction mechanism is fixed on a piston rod of the lifting mechanism, and the sliding seat of the X.

According to the utility model discloses a further embodiment, further include rotary friction mechanism is polished the pearl by rotating electrical machines and silica and is constituteed, and the organism of rotating electrical machines is fixed on the slide of the horizontal linear drive mechanism of Y axle, and the output shaft of rotating electrical machines is fixed on the pearl is polished to silica.

According to another embodiment of the present invention, it further comprises that the X-axis horizontal linear driving mechanism is a linear module.

According to another embodiment of the present invention, it further comprises that the Y-axis horizontal linear driving mechanism is a linear module.

According to another embodiment of the present invention, it is further comprised that the lifting mechanism is an electric cylinder.

The beneficial effects of the utility model are that, this utility model fixes a position and rotatory glass fiber insulating tube through rotatory clamping jaw of locating plate cooperation and bearing. The rotating friction mechanism is driven to move horizontally and vertically by the Y-axis horizontal linear driving mechanism and the lifting mechanism. The burr on the insulating tube is polished by rotating the friction mechanism. The positioning plate is driven to horizontally and linearly move by the X-axis horizontal linear driving mechanism. This application has improved the efficiency of insulating tube burring.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention;

in the figure, 1, a machine table, 2, a positioning plate, 3, a rotating clamping jaw, 4, a supporting seat, 5, an X-axis horizontal linear driving mechanism, 6, a Y-axis horizontal linear driving mechanism, 7, a lifting mechanism and 8, a rotating friction mechanism are arranged.

Detailed Description

FIG. 1 is a schematic structural diagram of the present invention, an automatic deburring apparatus for glass fiber insulating tube, comprising a machine table 1, a positioning plate 2, a rotary clamping jaw 3, a supporting seat 4, an X-axis horizontal linear driving mechanism 5, a Y-axis horizontal linear driving mechanism 6, a lifting mechanism 7 and a rotary friction mechanism 8, bench 1 sliding fit is connected with locating plate 2, and 2 one ends of locating plate are fixed with rotatory clamping jaw 3, and the 2 other ends of locating plate are fixed with bearing 4, are fixed with the horizontal linear actuating mechanism 5 of X axle and the horizontal linear actuating mechanism 6 of Y axle on the bench 1, and the horizontal linear actuating mechanism 6 of Y axle is located locating plate 2 top, is fixed with elevating system 7 on the slide of the horizontal linear actuating mechanism 6 of Y axle, is fixed with rotatory friction mechanism 8 on elevating system 7's the piston rod, and the slide of the horizontal linear actuating mechanism 5 of X axle is fixed in locating plate 2 bottom. The rotary friction mechanism 8 is composed of a rotary motor and a silica grinding bead, the body of the rotary motor is fixed on the slide seat of the Y-axis horizontal linear driving mechanism 6, and the output shaft of the rotary motor is fixed on the silica grinding bead. The X-axis horizontal linear driving mechanism 5 is a linear module. The Y-axis horizontal linear driving mechanism 6 is a linear module. The lifting mechanism 7 is an electric cylinder. The slide linear movement track of the X-axis horizontal linear driving mechanism 5 is vertical to the slide linear movement track of the Y-axis horizontal linear driving mechanism 6.

As shown in FIG. 1, first, the glass fiber insulation tube is passed through the shaft hole of the supporting base 4, so that one end of the glass fiber insulation tube is moved to the position where the rotating clamping jaw 3 is clamped. Then the slide seat of the X-axis horizontal linear driving mechanism 5 drives the positioning plate 2 to move linearly back and forth. After the glass fiber insulating tube moves to the lower part of the silica polishing bead of the rotary friction mechanism 8, the piston rod of the lifting mechanism 7 extends out and drives the rotary friction mechanism 8 to move downwards until the silica polishing bead of the rotary friction mechanism 8 is attached to the glass fiber insulating tube. Then the rotating motor of the rotating friction mechanism 8 drives the silica grinding beads to rotate, and meanwhile the Y-axis horizontal linear driving mechanism 6 drives the rotating friction mechanism 8 to horizontally and linearly move, so that the rotating silica grinding beads can perform deburring operation on the tube body along the glass fiber insulating tube.

After the deburring of the upper part of the glass fiber insulating tube is completed, the rotating clamping jaw 3 drives the glass fiber insulating tube to rotate, so that the part of the glass fiber insulating tube which is not polished faces upwards. And then the rotary friction mechanism 8 is used for deburring the part which is not polished on the glass fiber insulating pipe.

Claims (5)

1. An automatic deburring device for a glass fiber insulating tube is characterized by comprising a machine table (1), a positioning plate (2), a rotating clamping jaw (3), a supporting seat (4), an X-axis horizontal linear driving mechanism (5), a Y-axis horizontal linear driving mechanism (6), a lifting mechanism (7) and a rotating friction mechanism (8), wherein the machine table (1) is connected with the positioning plate (2) in a sliding fit manner, one end of the positioning plate (2) is fixedly provided with the rotating clamping jaw (3), the other end of the positioning plate (2) is fixedly provided with the supporting seat (4), the machine table (1) is fixedly provided with the X-axis horizontal linear driving mechanism (5) and the Y-axis horizontal linear driving mechanism (6), the Y-axis horizontal linear driving mechanism (6) is positioned above the positioning plate (2), a sliding seat of the Y-axis horizontal linear driving mechanism (6) is fixedly provided with the lifting mechanism (7), and a piston rod of the lifting mechanism (, the sliding seat of the X-axis horizontal linear driving mechanism (5) is fixed at the bottom of the positioning plate (2).

2. The automatic deburring equipment for glass fiber insulating tubes according to claim 1, wherein the rotary friction mechanism (8) is composed of a rotary motor and silica grinding beads, a machine body of the rotary motor is fixed on a sliding seat of the Y-axis horizontal linear driving mechanism (6), and an output shaft of the rotary motor is fixed on the silica grinding beads.

3. The automated glass fiber insulation pipe deburring apparatus of claim 1 wherein said X-axis horizontal linear drive mechanism (5) is a linear die set.

4. The automated glass fiber insulation pipe deburring apparatus of claim 1 wherein said Y-axis horizontal linear drive mechanism (6) is a linear die set.

5. The automated glass fiber insulating tube deburring apparatus of claim 1 wherein said lifting mechanism (7) is an electric cylinder.

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