CN205346001U - Glass substrate's hold -in range conveyer - Google Patents

Abstract

The utility model discloses a glass substrate's hold -in range conveyer, including motor (1), through this motor (1) driven driving shaft for support rolling bearing unit (4) of this driving shaft, install in the epaxial action wheel of this initiative (3), install in frame (9) from driving wheel (6), and connect action wheel (3) and from profile of tooth hold -in range (8) of driving wheel (6), the driving shaft includes the many segmentation axles (2) of coaxial setting, connect through shaft coupling (5) between adjacent segmentation axle (2), and the both ends of every segmentation axle (2) is all supported through rolling bearing unit (4). The driving shaft includes many segmentation axles, through the coupling joint between the segmentation axle, can be convenient pass through the length of adjustment shaft coupling and realize the horizontal adjustment of action wheel to realize the action wheel and from the tooth's socket of driving wheel point -blank, it is bad with toothed grooves meshing with effectively to reduce the profile of tooth hold -in range, reduces the wearing and tearing of profile of tooth hold -in range and jumps and take the problem to take place. In addition, when the long -term wearing and tearing of profile of tooth hold -in range need to be changed, be convenient for change alone, reduce device down time, improve production efficiency.

Description

The synchronous belt conveying device of glass substrate

Technical field

This utility model relates to the transporter of a kind of glass substrate, particularly relates to the synchronous belt conveying device of a kind of glass substrate.

Background technology

Glass substrate requires over transporter transmission in sizing processes.Transporter in existing dimensioned operation is to be rotated by piece driving shaft of a driven by motor, a piece driving shaft drives 3-5 root Timing Belt (being generally profile of tooth cog belt) to rotate, and glass substrate bearing completes the transmission work between station on Timing Belt.

As it is shown in figure 1, existing synchronous belt conveying device, including motor 1, driving shaft 2, drivewheel 3, rolling bearing units 4, shaft coupling 5, driven pulley 6, planar support plate 7 and tooth form synchronous belt 8.Motor 1 drives driving shaft 2 to rotate by shaft coupling 5, main biography axle 2 is pivotably supported by rolling bearing units 4, is fixed on drivewheel 3 on driving shaft 2 and drives the tooth form synchronous belt 8 supported by planar support plate 7 to follow at corresponding driven pulley 6 to complete under rotation glass substrate is forwarded work.

In actual moving process, affect owing to being subject to processing, installing fixed precision etc., drivewheel 3 is not fully aligned on the direction of transfer of glass substrate with driven pulley 6, cause that tooth form synchronous belt 8 jumps band frequent generation the with the race engagement process of drivewheel 3 and driven pulley 6, the load mode of this instability not only exacerbates the band tooth Fast Wearing of tooth form synchronous belt 8, shorten its service life, and it is easily caused glass substrate to be subjected to displacement in transmission process, subsequent processing can not be normally entered, cause the lower surface of glass substrate to occur wiping scuffing or broken.Additionally, due to drivewheel 3 is installed on a driving shaft 2 jointly, it is not easy to the tooth form synchronous belt 8 of serious wear is replaced.

Utility model content

The purpose of this utility model is to provide the synchronous belt conveying device of a kind of glass substrate, can improve the stability that glass substrate transmits, and be easy to the replacing of tooth form synchronous belt.

To achieve these goals, this utility model provides the synchronous belt conveying device of a kind of glass substrate, including motor, by this motor-driven driving shaft, for supporting the rolling bearing units of this driving shaft, it is installed on the drivewheel on this driving shaft, it is installed on the driven pulley in frame, and connect the tooth form synchronous belt of described drivewheel and driven pulley, described driving shaft includes the many segmentation axles being coaxially disposed, connected by shaft coupling between adjacent segmentation axle, and the two ends of every segmentation axle support each through described rolling bearing units.

Preferably, connect also by shaft coupling between described motor and the segmentation axle being adjacent.

Preferably, described tooth form synchronous belt supporting plate is arranged below, this supporting plate is formed with groove on the direction of transfer of described tooth form synchronous belt, and described tooth form synchronous belt is positioned in this groove.

Preferably, the two ends of described groove are formed with the horn mouth outwards expanded gradually.

Preferably, described driven pulley is installed in described frame by each installing rack, and on the direction of transfer of described tooth form synchronous belt, described each installing rack position-adjustable in described frame.

Preferably, described installing rack being formed with elongated hole, securing member is installed in described frame to regulate the position of described installing rack by this elongated hole.

Preferably, every segmentation axle is only provided with a described drivewheel.

Preferably, described drivewheel is fixed on described segmentation axle respectively through expansion sleeve.

Pass through technique scheme, driving shaft includes many segmentation axles, namely segmentation shaft type is adopted, it is connected by shaft coupling between segmentation axle with segmentation axle, so can realize laterally adjusting of drivewheel by adjusting the length of shaft coupling easily, thus realizing the teeth groove of drivewheel and driven pulley point-blank, effectively reducing tooth form synchronous belt and engage with teeth groove bad, reduce toothed synchronous belt wear and jumping band problem generation.

It addition, when tooth form synchronous belt long term wear needs to change, owing to driving shaft adopts the segmentation axis structure that shaft coupling connects, so it is easy to tooth form synchronous belt on which and is individually replaced, reduce device downtime, improve production efficiency.

Other feature and advantage of the present utility model will be described in detail in detailed description of the invention part subsequently.

Accompanying drawing explanation

Accompanying drawing is used to offer and is further appreciated by of the present utility model, and constitutes a part for description, is used for explaining this utility model, but is not intended that restriction of the present utility model together with detailed description below.In the accompanying drawings:

Fig. 1 is the structural representation of existing a kind of synchronous belt conveying device.

Fig. 2 is the structural representation of the synchronous belt conveying device according to a kind of embodiment of this utility model.

Fig. 3 is the floor map of tooth form synchronous belt and supporting plate in Fig. 2.

Fig. 4 is the side schematic view of tooth form synchronous belt and supporting plate in Fig. 2.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in detail.It should be appreciated that detailed description of the invention described herein is merely to illustrate and explains this utility model, it is not limited to this utility model.

As shown in Figure 2, this utility model provides the synchronous belt conveying device of a kind of glass substrate, including motor 1, by the driving shaft that this motor 1 drives, for supporting the rolling bearing units 4 of this driving shaft, it is installed on the drivewheel 3 on this driving shaft, it is installed on the driven pulley 6 in frame 9, and connect the tooth form synchronous belt 8 of described drivewheel 3 and driven pulley 6, described driving shaft includes the many segmentation axles 2 being coaxially disposed, connected by shaft coupling 5 between adjacent segmentation axle 2, and the two ends of every segmentation axle 2 support each through described rolling bearing units 4.

Pass through technique scheme, driving shaft includes many segmentation axles 2, namely segmentation shaft type is adopted, it is connected by shaft coupling 5 between segmentation axle 2 with segmentation axle 2, so can realize laterally adjusting of drivewheel 3 by adjusting the length of shaft coupling 5 easily, thus realizing the teeth groove of drivewheel 3 and driven pulley 6 point-blank, effectively reducing tooth form synchronous belt 8 and engage with teeth groove bad, minimizing tooth form synchronous belt 8 weares and teares and jumps the generation of band problem.Owing to drivewheel 3 needs the displacement adjusted generally only small, various suitable shaft coupling 5 therefore can being adopted to realize the purpose of drivewheel 3 adjustment of displacement, this is not limited as by this utility model.

It addition, when certain root tooth form synchronous belt 8 long term wear needs to change, it is only necessary to corresponding segmentation axle 2 is dismantled, and does not affect other segmentation axles 2 and tooth form synchronous belt 8, therefore can reduce the downtime of whole transporter, improve production efficiency.

As required, motor 1 can be attached by the devices such as decelerator and first segmentation axle 2.As a kind of preferred implementation, shaft coupling 5 can also be passed through between motor 1 and adjacent segmentation axle 2 thereof be attached, from there through the length adjusting this shaft coupling 5, it is also possible to be conveniently adjusted the position of this first segmentation axle 2, be adjusted with the position of drivewheel 3 on which.

It addition, be further typically provided with supporting plate 7 below tooth form synchronous belt 8, with support tooth form synchronous belt 8.Existing supporting plate 7 is generally one flat plate.In this utility model, as one preferred embodiment, as shown in Figure 3 and Figure 4, this supporting plate 7 is formed with groove 71 on the direction of transfer of described tooth form synchronous belt 8, and tooth form synchronous belt 8 can be positioned in this groove 71.Therefore, in tooth form synchronous belt 8 transmission process, its dual-side will be spacing by groove 71, it is ensured that the operation that tooth form synchronous belt 8 is more stable, the stable transmission of reinforcing glass substrate.

Preferably, the two ends of groove 71 could be formed with the horn mouth 72 outwards expanded gradually, such that it is able to prevent tooth form synchronous belt 8 from interfering in the port of groove 71, it is ensured that its even running.It addition, when the displacement of drivewheel 3 occurs to adjust, this horn mouth 72 is without affecting the properly functioning of tooth form synchronous belt 8.

Driven pulley 6 in synchronous belt conveying device can be installed in frame 9 by each installing rack 10, and frame 9 can provide a consistent installation foundation face for all of driven pulley 6, it is ensured that its installation accuracy.It addition, on the direction of transfer of tooth form synchronous belt 8, each installing rack 10 position-adjustable in frame 9, it may thereby be ensured that tooth form synchronous belt 8 has suitable Zhang Jindu.In other words, driven pulley 6 can adjust the displacement on tooth form synchronous belt 8 length direction, and drivewheel 3 can adjust the displacement on width by shaft coupling 5.This adjustment mode simple in construction, it is easy to realize.In other words, if realize the adjustment of displacement on length and width on driven pulley 6 simultaneously, structure is complicated, and is difficult to ensure that degree of regulation.

As a kind of embodiment, installing rack 10 being formed with elongated hole 11, securing member is installed in described frame 9 to regulate the position of described installing rack 10 by this elongated hole 11.This kind of adjustment of displacement structure is very simple, easy to adjust.

In this utility model, although driving shaft adopts the mode of many segmentation axles 2, but can install more than one drivewheel 3 on every segmentation axle 2 too.But preferably, every segmentation axle 2 is still only provided with a drivewheel 3, thus tooth form synchronous belt 8 lateral attitude regulate and change all can be very convenient.

Drivewheel 3 can be fixed on segmentation axle 2 by multiple suitable mode, it is preferable that and easily, it is possible to it is fixed on respective segmentation axle 2 respectively through expansion sleeve.

Preferred implementation of the present utility model is described in detail above in association with accompanying drawing; but; this utility model is not limited to the detail in above-mentioned embodiment; in technology concept of the present utility model; the technical solution of the utility model can being carried out multiple simple variant, these simple variant belong to protection domain of the present utility model.

It is further to note that, each concrete technical characteristic described in above-mentioned detailed description of the invention, in reconcilable situation, it is possible to be combined by any suitable mode, in order to avoid unnecessary repetition, various possible compound modes are no longer illustrated by this utility model separately.

Additionally, can also carry out combination in any between various different embodiment of the present utility model, as long as it is without prejudice to thought of the present utility model, it should be considered as content disclosed in the utility model equally.

Claims (8)

1. the synchronous belt conveying device of a glass substrate, including motor (1), by the driving shaft that this motor (1) drives, for supporting the rolling bearing units (4) of this driving shaft, it is installed on the drivewheel (3) on this driving shaft, it is installed on the driven pulley (6) in frame (9), and connect the tooth form synchronous belt (8) of described drivewheel (3) and driven pulley (6), it is characterized in that, described driving shaft includes the many segmentation axles (2) being coaxially disposed, connected by shaft coupling (5) between adjacent segmentation axle (2), and the two ends of every segmentation axle (2) support each through described rolling bearing units (4).

2. the synchronous belt conveying device of glass substrate according to claim 1, it is characterised in that connect also by shaft coupling (5) between described motor (1) and the segmentation axle (2) being adjacent.

3. the synchronous belt conveying device of glass substrate according to claim 1, it is characterized in that, described tooth form synchronous belt (8) supporting plate (7) is arranged below, this supporting plate (7) is formed with groove (71) on the direction of transfer of described tooth form synchronous belt (8), and described tooth form synchronous belt (8) is positioned in this groove (71).

4. the synchronous belt conveying device of glass substrate according to claim 3, it is characterised in that the two ends of described groove (71) are formed with the horn mouth (72) outwards expanded gradually.

5. the synchronous belt conveying device of glass substrate according to claim 1, it is characterized in that, described driven pulley (6) is installed in described frame (9) by each installing rack (10), and on the direction of transfer of described tooth form synchronous belt (8), the described each installing rack (10) position-adjustable in described frame (9).

6. the synchronous belt conveying device of glass substrate according to claim 5, it is characterized in that, being formed with elongated hole (11) on described installing rack (10), securing member is installed in described frame (9) to regulate the position of described installing rack (10) by this elongated hole (11).

7. the synchronous belt conveying device of glass substrate according to claim 1, it is characterised in that be only provided with a described drivewheel (3) on every segmentation axle (2).

8. the synchronous belt conveying device of glass substrate according to claim 1, it is characterised in that described drivewheel (3) is fixed on described segmentation axle (2) respectively through expansion sleeve.