CN218582175U - Belt transmission device for glass tempering unit - Google Patents

Abstract

The utility model provides a belt drive for glass tempering unit, including a transmission shaft and a plurality of pulley group, the transmission shaft is located the below of a plurality of rollers and the transmission shaft all sets up perpendicularly with a plurality of rollers, pulley group includes driving pulley, follow-up band pulley, transition band pulley, tensioning band pulley and two passive pulleys, through setting up transmission shaft and a plurality of pulley group, make every pulley group can both drive two roller rotations, and the rotation of all pulley groups can pass through transmission shaft synchro control, consequently, can effectively guarantee the synchro-rotation of all rollers, through setting up follow-up band pulley, transition band pulley and tensioning band pulley, make also can high-efficient transmission under the axis vertically condition of driving pulley and passive pulley, avoided single belt to wind the condition of establishing in the outside of a plurality of rollers simultaneously, can guarantee the frictional force between hold-in range and two passive pulleys, promote transmission efficiency and stability, and the dismouting of hold-in range is all comparatively convenient.

Description

Belt transmission device for glass tempering unit

Technical Field

The utility model relates to a glass tempering unit field especially relates to a belt drive for glass tempering unit.

Background

Glass tempering unit adopts the roll table to carry glass usually, has multiple structure about the drive of heating furnace roll table, if: a triangle belt structure and an adjustable belt structure; the circular band of PU takes multiple drive structure such as structure, and above-mentioned various drive structure is by belt and band pulley frictional force guarantee driven steady, and the synchronous rotation of whole roll table is realized around establishing the outside at a plurality of roller simultaneously through same root belt to most of all. However, when some large-scale equipment utilizes the structure, the friction force between the belt and the belt wheel is not enough to drive the roller way to run stably, and at the moment, a new transmission structure is needed to meet the transmission requirement of heavy-load equipment, so that the transmission efficiency and the stability are improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a belt drive for glass tempering unit promotes transmission efficiency and stability.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be: a belt transmission device for a glass tempering machine set is characterized in that roller way supporting plates are arranged on two sides of a rack of the glass tempering machine set, a plurality of parallel roller shafts are arranged on the roller way supporting plates in a penetrating mode in a matching mode, the belt transmission device comprises a transmission shaft and a plurality of belt pulley sets, two belt seat bearings used for installing the transmission shaft in a matching mode are arranged on one side, located at the end portion of each roller shaft, of the rack, the transmission shaft is located below the plurality of roller shafts, and the transmission shaft and the plurality of roller shafts are arranged perpendicularly; the belt pulley group comprises a driving belt pulley, a follow-up belt pulley, a transition belt pulley, a tensioning belt pulley and two driven belt pulleys, the driving belt pulley is sleeved on the transmission shaft and can synchronously rotate with the transmission shaft, the follow-up belt pulley is sleeved on the transmission shaft through a bearing and can freely rotate, the two driven belt pulleys are respectively sleeved at the end parts of the two adjacent roller shafts on the same side in the length direction, the transition belt pulley and the tensioning belt pulley are respectively installed on the side surface of the roller table supporting plate through respective rotating shafts and can freely rotate, the axial lines of the transition belt pulley and the tensioning belt pulley are both parallel to the axial direction of the driven belt pulley, the transition belt pulley and the tensioning belt pulley are both positioned below the plurality of roller shafts, the transition belt pulley is positioned above one side of the driving belt pulley and the follow-up belt pulley, which is close to the rack, and the tensioning belt pulley is positioned between one side of the driving belt pulley and the bottom side of the follow-up belt pulley, which is far away from the rack, and the driven belt pulley;

the synchronous belts are wound on the top sides of the transition belt wheels, then extend downwards from the two sides of the transition belt wheels to one sides, close to the rack, of the driving belt wheels and the driven belt wheels and are wound on the bottom sides of the driving belt wheels and the driven belt wheels, then extend upwards from one sides, far away from the rack, of the driving belt wheels and the driven belt wheels and are wound on the two driven belt wheels in a matched mode, and the synchronous belts are pressed on the upper sides of the tensioning belt wheels to achieve tensioning of the synchronous belts.

Preferably, the driven pulley is mounted at the end of the roll shaft by a pulley collar.

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

the utility model discloses a set up transmission shaft and a plurality of pulley group, make every pulley group can both drive two roller rotations, and the rotation of all pulley groups can pass through transmission shaft synchro control, consequently, can effectively guarantee the synchronous rotation of all rollers, through setting up follow-up pulley, transition band pulley and tensioning band pulley, make also can high-efficient transmission under the axis vertically condition of driving pulley and passive band pulley, avoided single belt simultaneously around the condition of establishing in the outside of a plurality of rollers, can guarantee the frictional force between hold-in range and two passive band pulleys, promote transmission efficiency and stability, and the dismouting of hold-in range is all comparatively convenient.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a left side view of fig. 1.

The labels in the figure are: 1. the device comprises a rack, 2 parts of a roll shaft, 3 parts of a belt seat bearing, 4 parts of a transmission shaft, 5 parts of a driving belt wheel, 6 parts of a follow-up belt wheel, 7 parts of a synchronous belt, 8 parts of a transition belt wheel, 9 parts of a tensioning belt wheel, 10 parts of a driven belt wheel, 11 parts of a roller way supporting plate, 12 parts of a belt wheel retaining ring.

Detailed Description

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

a roller way supporting plate 11 is arranged on two sides of a frame 1 of the glass tempering unit, and a plurality of parallel roller shafts 2 are arranged on the roller way supporting plate 11 in a penetrating mode in a matching mode.

This belt drive includes a transmission shaft 4 and a plurality of pulley group, and frame 1 is located one side of 2 tip of roller and is equipped with two rolling bearing 3 that are used for the cooperation installation transmission shaft 4, and transmission shaft 4 is located the below of a plurality of roller 2 and transmission shaft 4 all sets up perpendicularly with a plurality of roller 2.

The belt pulley group comprises a driving belt pulley 5, a follow-up belt pulley 6, a transition belt pulley 8, a tensioning belt pulley 9 and two driven belt pulleys 10, the driving belt pulley 5 is sleeved on a transmission shaft 4 and can synchronously rotate with the transmission shaft 4, the follow-up belt pulley 6 is sleeved on the transmission shaft 4 through a bearing sleeve and can freely rotate, the two driven belt pulleys 10 are respectively sleeved on the end parts of the same side of the two adjacent roller shafts 2 along the length direction through belt pulley check rings 12, the transition belt pulley 8 and the tensioning belt pulley 9 are respectively installed on the side surface of a roller way support plate 11 through respective rotating shafts and can freely rotate, the axes of the transition belt pulley 8 and the tensioning belt pulley 9 are parallel to the axial direction of the driven belt pulley 10, the transition belt pulley 8 and the tensioning belt pulley 9 are both located below the plurality of roller shafts 2, the transition belt pulley 8 is located above one side, close to the rack 1, of the driving belt pulley 5 and the follow-up belt pulley 6, and the tensioning belt pulley 9 is located between the bottom side, far away from the rack 1, and the bottom side of the driven belt pulley 10, of the driving belt pulley 5 and the follow-up belt pulley 6.

The synchronous belts 7 are respectively wound on the plurality of belt pulley groups, the synchronous belts 7 are wound on the top side of the transition belt pulley 8, then the synchronous belts are respectively and downwardly extended to one side of the driving belt pulley 5 and the driven belt pulley 6 close to the rack 1 from the two sides of the transition belt pulley 8 and are wound on the bottom sides of the driving belt pulley 5 and the driven belt pulley 6, then the synchronous belts 7 are upwardly extended from one side of the driving belt pulley 5 and the driven belt pulley 6 far away from the rack 1 and are wound on the two driven belt pulleys 10 in a matched mode, and the synchronous belts 7 are pressed on the upper side of the tensioning belt pulley 9 to realize the tensioning of the synchronous belts 7.

As shown in the figure, every pulley group can both drive two roller 2 and rotate, and the rotation of all pulley groups can be through 4 synchro controls of transmission shaft, consequently, can effectively guarantee the synchronous rotation of all roller 2, through setting up follow-up band pulley 6, transition band pulley 8 and tensioning band pulley 9, make also can high-efficient transmission under the axis vertically condition of driving pulley 5 with driven band pulley 10, avoided single belt simultaneously around the condition of establishing in the outside of a plurality of rollers, can guarantee the frictional force between hold-in range and two driven band pulleys 10, promote transmission efficiency and stability, and the dismouting of hold-in range is all comparatively convenient.

Claims (2)

1. The utility model provides a belt drive for glass tempering unit, frame (1) both sides of glass tempering unit are equipped with roll table backup pad (11), and roll table backup pad (11) are gone up the cooperation and are worn to be equipped with a plurality of roller (2) that are parallel to each other, its characterized in that: the belt transmission device comprises a transmission shaft (4) and a plurality of belt pulley sets, two belt seat bearings (3) used for being matched with the transmission shaft (4) are arranged on one side of the end part of the roll shaft (2) of the rack (1), the transmission shaft (4) is arranged below the roll shafts (2), and the transmission shaft (4) and the roll shafts (2) are vertically arranged; the belt pulley group comprises a driving belt pulley (5), a driven belt pulley (6), a transition belt pulley (8), a tensioning belt pulley (9) and two driven belt pulleys (10), the driving belt pulley (5) is sleeved on the transmission shaft (4) and can synchronously rotate with the transmission shaft (4), the driven belt pulley (6) is sleeved on the transmission shaft (4) through a bearing and can freely rotate, the two driven belt pulleys (10) are respectively sleeved on the end parts of the two adjacent roller shafts (2) on the same side along the length direction, the transition belt pulley (8) and the tensioning belt pulley (9) are respectively installed on the side surface of the roller table support plate (11) through respective rotating shafts and can freely rotate, the axes of the transition belt pulley (8) and the tensioning belt pulley (9) are both parallel to the axial direction of the driven belt pulleys (10), the transition belt pulley (8) and the tensioning belt pulley (9) are both positioned below the plurality of the roller shafts (2), the transition belt pulley (8) is positioned above one side, close to the rack (1), of the driving belt pulley (5) and the driven belt pulley (6), and the bottom side, far away from the rack (10), and the driven belt pulley (9) are positioned between the driven belt pulley (5) and the driven belt pulley (6);

the synchronous belt (7) is respectively wound on the plurality of belt pulley groups, the synchronous belt (7) is wound on the top side of the transition belt pulley (8), then the two sides of the transition belt pulley (8) respectively extend downwards to one side of the driving belt pulley (5) and the driven belt pulley (6) close to the rack (1) and are wound on the bottom sides of the driving belt pulley (5) and the driven belt pulley (6), then one side of the driving belt pulley (5) and the driven belt pulley (6) far away from the rack (1) extends upwards and is wound on the two driven belt pulleys (10) in a matched mode, and the synchronous belt (7) is pressed on the upper side of the tensioning belt pulley (9) to achieve tensioning of the synchronous belt (7).

2. The belt transmission device for a glass tempering machine set according to claim 1, wherein: the driven belt wheel (10) is arranged at the end part of the roll shaft (2) through a belt wheel retainer ring (12).

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