CN211003555U - Glass deflection plectrum device for glass conveying roller way - Google Patents

Abstract

A glass deflection plectrum device for a glass conveying roller way comprises two sections of linear guide rails arranged on a frame of the conveying roller way, wherein a roller wheel disc is arranged on each linear guide rail, the roller wheel disc is positioned between two adjacent roller shafts in the conveying roller way, two servo motors respectively drive the respective roller wheel discs to move on the linear guide rails, the moving direction of the roller wheel discs is parallel to the roller shafts, the roller wheel discs are vertically arranged and can freely rotate, a pair of induction switches are arranged on the frame of the conveying roller way, the induction switches are positioned on one sides of the two roller wheel discs along the moving direction of glass on the conveying roller way, a controller is also arranged on the frame of the conveying roller way, the controller can control the two servo motors to rotate for preset turns, the two roller wheel discs move for preset distance and respectively push the two side edges of the glass, the glass deflects for preset angle, and the structure is greatly simplified compared, the control of the rotation angle of the glass can be easily realized, and the glass can be conveyed and deflected more efficiently.

Description

Glass deflection plectrum device for glass conveying roller way

Technical Field

The utility model relates to a glass carries the field, especially relates to a glass plectrum device that deflects for glass rollgang.

Background

In a glass production line, glass is generally transported through a glass conveying roller way, and due to the requirement of a glass production process, before the glass is conveyed to some working procedures, the glass needs to be deflected by a certain angle, so that the inconvenience that the glass is conveyed in place and then manually rotated is avoided, and a device capable of deflecting the glass while conveying the glass is added on the glass conveying roller way. In the prior art, the glass is rotated and turned by additionally arranging a plurality of roller shafts capable of rotating and turning on a glass conveying roller way. The structure of the glass conveying roller way is extremely complex due to the mode, the control of the rotation angle of the glass is inconvenient, and the production efficiency is low and is difficult to meet the requirements.

SUMMERY OF THE UTILITY MODEL

For solving the complicated awkward problem of current glass rotary device structure, the utility model provides a glass deflector plectrum device for glass rollgang.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be: a glass deflection plectrum device for a glass conveying roller way comprises two sections of linear guide rails arranged on a frame of the conveying roller way, wherein the two sections of linear guide rails are arranged at intervals along the length direction of the conveying roller way, two roller discs are respectively arranged on the two sections of linear guide rails, the two roller discs are respectively positioned at two sides of the conveying roller way along the width direction, the roller discs are positioned between two adjacent roller shafts in the conveying roller way, the respective roller discs are respectively driven to move on the linear guide rails through two servo motors, the moving direction of the roller discs on the linear guide rails is parallel to the roller shafts, the roller discs are vertically arranged and can freely rotate, and the top ends of the roller discs are positioned above the planes of the top ends of the roller shafts in the conveying roller way; the pair of induction switches are installed on the roller conveyor rack, the induction switches are located on one side of the two roller wheels along the moving direction of the glass on the roller conveyor, a controller used for receiving signals sent by the induction switches when the glass moves to a position between the pair of induction switches is further installed on the roller conveyor rack, the controller can control output shafts of the two servo motors to rotate for preset turns after receiving the signals, and therefore the two roller wheels move on respective linear guide rails for preset distances and respectively push the edges of two sides of the glass, and the glass can deflect for a preset angle in the conveying process.

Preferably, the linear guide rails are positioned below the roller shafts in the conveying roller way, and the lengths of the two linear guide rails are equal.

Preferably, the two roller discs are of equal outer diameter.

Preferably, the roller wheel disc is sleeved at the top end of a vertically arranged wheel shaft, and the bottom end of the wheel shaft is inserted in a sliding block capable of moving along a linear guide rail.

Preferably, the sliding block is screwed on a lead screw arranged along the length direction of the linear guide rail, and the lead screw is connected with an output shaft of the servo motor.

According to the technical scheme, the beneficial effects of the utility model are that:

the utility model provides a glass shifting piece device that deflects for glass rollgang, through two gyro wheel dishes along linear guide relative motion, just can cooperate the both sides border that promotes glass to two gyro wheel dishes can be controlled servo motor's the number of revolutions through the controller along linear guide motion's distance, cooperate a pair of inductive switch, just can guarantee glass predetermined angle of deflecting in glass's transportation process, compare with current glass rotary device, the utility model discloses need not change glass rollgang original roller, the structure is very simplified to also can be according to servo motor just comparatively easy realization to glass rotation angle's control, can carry out more efficient transport deflection to glass.

Drawings

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

fig. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic view of the glass being pushed to deflect.

The labels in the figure are: 1. the device comprises a roller conveyor rack 2, a roller shaft 3, glass 4, a linear guide rail 5, a roller disc 6 and an induction switch.

Detailed Description

Referring to the drawings, the specific embodiments are as follows:

a glass deflection plectrum device for a glass conveying roller way comprises two linear guide rails 4 arranged on a conveying roller way frame 1, wherein the two linear guide rails 4 are arranged at intervals along the length direction of the conveying roller way, the linear guide rails 4 are positioned below roller shafts 2 in the conveying roller way, the lengths of the two linear guide rails 4 are equal, a roller wheel disc 5 is respectively arranged on the two linear guide rails 4, the two roller wheel discs 5 are respectively positioned at two sides of the conveying roller way along the width direction, the roller wheel discs 5 are positioned between two adjacent roller shafts 2 in the conveying roller way, the roller wheel discs 5 are sleeved at the top ends of vertically arranged wheel shafts, the bottom ends of the wheel shafts are inserted in sliding blocks capable of moving along the linear guide rails 4, the sliding blocks are screwed on a lead screw arranged along the length direction of the linear guide rails 4, the lead screw is connected with output shafts of servo motors, and the respective roller wheel discs 5 are respectively driven to, and the moving direction of the roller disc 5 on the linear guide rail 4 is parallel to the roller shaft 2, the roller disc 5 is vertically arranged and can freely rotate, and the top end of the roller disc 5 is positioned above the plane of the top end of the roller shaft 2 in the conveying roller way.

A pair of inductive switches 6 are installed on the roller conveyor rack 1, the inductive switches 6 are located on one side of the two roller discs 5 along the moving direction of the glass on the roller conveyor, a controller for receiving signals sent by the inductive switches 6 when the glass 3 moves to a position between the pair of inductive switches 6 is also installed on the roller conveyor rack 1, the controller can control the output shafts of the two servo motors to rotate for a preset number of turns after receiving the signals, so that the two roller discs 5 move on respective linear guide rails 4 for a preset distance and respectively push the two side edges of the glass 3 so as to facilitate the glass 3 to deflect for a preset angle in the conveying process, in the embodiment, the outer diameters of the two roller discs 5 are equal, the controller can more easily calculate and control the moving distance of the two roller discs 5, compared with the existing glass rotating device, the original roller shaft 2 in the glass roller conveyor is not changed in the embodiment, instead, the linear guide rail 4, the roller disc 5 and the inductive switch 6 are directly added on the existing glass conveying roller way, the structure is greatly simplified, the control of the rotation angle of the glass 3 can be easily realized according to the servo motor, and the glass 3 can be conveyed and deflected more efficiently.

Claims (5)

1. The utility model provides a glass deflector plectrum device for glass rollgang which characterized in that: the automatic feeding device comprises two linear guide rails (4) arranged on a roller conveyor rack (1), wherein the two linear guide rails (4) are arranged at intervals along the length direction of a roller conveyor, two roller discs (5) are respectively arranged on the two linear guide rails (4), the two roller discs (5) are respectively positioned on two sides of the roller conveyor along the width direction, the roller discs (5) are positioned between two adjacent roller shafts (2) in the roller conveyor, the respective roller discs (5) are respectively driven by two servo motors to move on the linear guide rails (4), the moving direction of the roller discs (5) on the linear guide rails (4) is parallel to the roller shafts (2), the roller discs (5) are vertically arranged and can freely rotate, and the top ends of the roller discs (5) are positioned above the plane where the top ends of the roller shafts (2) in the roller conveyor; a pair of induction switches (6) are installed on the roller conveyor rack (1), the induction switches (6) are located on one side of the two roller discs (5) in the moving direction of the glass on the roller conveyor, a controller used for receiving signals sent by the induction switches (6) when the glass (3) moves to a position between the pair of induction switches (6) is further installed on the roller conveyor rack (1), and the controller can control output shafts of two servo motors to rotate for preset number of turns after receiving the signals, so that the two roller discs (5) move on respective linear guide rails (4) for preset distances and respectively push two side edges of the glass (3), and the glass (3) can deflect for a preset angle in the conveying process.

2. The glass deflection plectrum device for a glass run table according to claim 1, wherein: the linear guide rails (4) are positioned below the roller shafts (2) in the conveying roller way, and the lengths of the two linear guide rails (4) are equal.

3. The glass deflection plectrum device for a glass run table according to claim 2, wherein: the outer diameters of the two roller discs (5) are equal.

4. The glass deflection plectrum device for a glass run table according to claim 1, wherein: the roller wheel disc (5) is sleeved at the top end of a vertically arranged wheel shaft, and the bottom end of the wheel shaft is inserted in a sliding block capable of moving along the linear guide rail (4).

5. The glass deflection plectrum device for a glass run table according to claim 4, wherein: the sliding block is screwed on a lead screw arranged along the length direction of the linear guide rail (4), and the lead screw is connected with an output shaft of the servo motor.

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