CN211034386U - Bearing table for glass up-down conveying line - Google Patents

Abstract

The utility model provides a receiving platform that transfer chain used about glass belongs to glass production facility technical field. The receiving table comprises a rectangular outer frame, wherein a plurality of longitudinal conveying rollers which are parallel to each other and a plurality of transverse conveying rollers which are arranged at equal intervals are arranged in the outer frame at equal intervals, each longitudinal conveying roller comprises a conveying shaft, a plurality of sleeves, a plurality of crankshafts, driving rollers which correspond to the crankshafts one by one, transmission gears which correspond to the transmission rollers one by one and driven gears which correspond to the transmission gears one by one, an intermediate gear which is positioned between adjacent synchronous gears is rotatably connected to the outer frame, the intermediate gear is simultaneously meshed with two adjacent synchronous gears, and one conveying shaft is connected with an output shaft of a first driving motor; and a driving rod is connected between the two connecting plates through a bearing, the driving rod is in threaded connection with the outer frame, and one end of the driving rod is connected with an output shaft of a driving motor II. The utility model has the advantages of can realize diversified going on and off the production line to glass.

Description

Bearing table for glass up-down conveying line

Technical Field

The utility model belongs to the technical field of glass production facility, a carrying platform that transfer chain was used about glass is related to.

Background

The glass conveying line is straight because the glass product has larger size, and the requirements on the stability and the conveying reliability of the conveying line are higher, so that the glass conveying line cannot be bent, but in the process of glass processing (coating, clamping pieces and the like), glass needs to be moved to other parts out of a main line on the conveying line according to needs to be subjected to secondary processing or storage, when the glass is pushed to the conveying line, the glass can only be put on line from the position conforming to the direction of the conveying line, but not from other positions, so that the installation space of glass putting-on-line auxiliary equipment, the installation space of glass transfer equipment and the like are limited, and troubles are caused on the utilization of a workshop and the layout of the workshop.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem that prior art exists, provide a bearing platform that transfer chain used about glass, the utility model discloses the technical problem that will solve is how to realize that three position homoenergetic is used for glass's last lower line.

The purpose of the utility model can be realized by the following technical proposal: a receiving platform for glass up-and-down conveying lines is characterized by comprising a rectangular outer frame, wherein a plurality of parallel longitudinal conveying rollers and a plurality of equally-spaced transverse conveying rollers are arranged in the outer frame at equal intervals, each longitudinal conveying roller comprises a conveying shaft, a plurality of sleeves, a plurality of crankshafts, driving rollers in one-to-one correspondence with the crankshafts, transmission gears in one-to-one correspondence with the driving rollers and driven gears in one-to-one correspondence with the transmission gears, each crankshaft is fixedly arranged between adjacent sleeves, the conveying shafts are rotatably connected in the sleeves, the driving rollers are fixed on the crankshafts, the driven gears are fixed on the driving rollers, the transmission gears are fixed on the conveying shafts, and the transmission gears are meshed with the corresponding driven gears;

each conveying shaft is fixedly provided with a synchronous gear, an intermediate gear positioned between adjacent synchronous gears is rotatably connected to the outer frame, the intermediate gear is simultaneously meshed with two adjacent synchronous gears, and one conveying shaft is connected with an output shaft of a first driving motor;

the conveying mechanism comprises a conveying shaft, a plurality of sleeves, an outer frame, a plurality of swinging gears, a plurality of connecting plates, a plurality of driving rods, a plurality of driving motors and a plurality of driving rods, wherein the sleeves at two ends of the conveying shaft are fixedly provided with swinging gears, the outer frame is provided with racks perpendicular to the conveying shaft, two ends of the racks are respectively and fixedly provided with a pin shaft, the pin shafts are connected to the outer frame in a sliding manner, the swinging gears are meshed with the racks at the same side with the swinging gears, the two pin shafts at the same side are connected with one another through connecting plates, the two connecting plates are;

the conveying shaft is located below the horizontal plane where the longitudinal conveying rollers are located, and the crankshaft can rotate to a position above the horizontal plane where the longitudinal conveying rollers are located.

The glass conveying device comprises a glass conveying device, wherein glass conveying rollers are arranged on the glass conveying device, the glass conveying device comprises a glass conveying belt, glass conveying rollers are arranged on the glass conveying belt, the glass conveying rollers are arranged at equal.

When the longitudinal conveying roller conveys the glass longitudinally, each crankshaft in the transverse conveying roller is positioned below the plane of the longitudinal conveying roller, and the control mode is as follows: the driving rod is driven to rotate by the driving motor II, and under the action of the threads, the driving rod moves along the thread direction, so that the two racks are pushed to move, the sleeves are driven to rotate, the crankshaft swings, and the crankshaft stops when the crankshaft swings to be positioned below the plane where the longitudinal conveying roller is positioned.

When the longitudinal conveying roller is idle, the crankshaft is driven in the same mode, the crankshaft stops after being located on the horizontal plane where the longitudinal conveying roller is located, the conveying shaft is driven to rotate through the driving motor I, the transmission gear rotates, the transmission gear drives the driven gear and the transmission roller fixedly connected with the driven gear to rotate, and therefore the glass supported by the transmission roller is driven to move transversely.

This receiving platform can be with originally being located the glass on the vertical conveying roller and changeing to horizontal conveying roller, also can be with originally being in glass on the horizontal conveying roller and changeing to vertical conveying roller on.

Through setting up two vertical transfer chain and two horizontal transfer chain, two vertical transfer chain, vertical conveying roller three are in on same horizontal plane, and two horizontal transfer chain, driving roller three can be in on the same horizontal plane, horizontal transfer chain place plane is less than vertical transfer chain place plane, vertical transfer chain is perpendicular with horizontal transfer chain, and two vertical transfer chain and two horizontal transfer chain are located respectively outside four frames of outer frame.

Utilize two horizontal transfer chain and two vertical transfer chain to form the cross transport route of a transport glass, outer frame position is the crossroad, can realize the switching of glass between arbitrary horizontal transfer chain and arbitrary vertical transfer chain, realize the turn of glass transport route, utilize a plurality of structures as above, form the field word check transport network of carrying glass, be used for the multistation operation or avoid the route to interfere and keep in glass, saving workshop space that can bigger degree, also can play very big improvement operation to the transport efficiency of transfer chain, the human cost and the transportation risk that frequent upper and lower line caused have been avoided.

Drawings

FIG. 1 is a schematic view of the receiving platform.

Fig. 2 is a sectional view of the longitudinal conveying roller.

Fig. 3 is a schematic view of the cross-shaped glass conveying mesh implemented by the receiving station.

In the figure, 1, an outer frame; 2. a transverse conveying roller; 3. a longitudinal conveying roller; 31. a delivery shaft; 32. a sleeve; 33. a crankshaft; 34. a driving roller; 35. a transmission gear; 36. a driven gear; 37. a synchronizing gear; 38. an intermediate gear; 39. driving a motor I; 41. a swing gear; 42. a rack; 43. a connecting plate; 44. a drive rod; 45. a second driving motor; 5. a transverse conveying line; 6. and (5) a longitudinal conveying line.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 and fig. 2, the receiving platform includes a rectangular outer frame 1, a plurality of parallel longitudinal conveying rollers 3 and a plurality of equally spaced transverse conveying rollers 2 are equally spaced in the outer frame 1, the longitudinal conveying rollers 3 include a conveying shaft 31, a plurality of sleeves 32, a plurality of crankshafts 33, driving rollers 34 corresponding to the crankshafts 33 one by one, transmission gears 35 corresponding to the driving rollers 34 one by one, and driven gears 36 corresponding to the transmission gears 35 one by one, each crankshaft 33 is fixedly disposed between adjacent sleeves 32, the conveying shaft 31 is rotatably connected in the sleeves 32, the driving rollers 34 are fixed on the crankshafts 33, the driven gears 36 are fixed on the driving rollers 34, the transmission gears 35 are fixed on the conveying shaft 31, and the transmission gears 35 are engaged with the corresponding driven gears 36;

each conveying shaft 31 is fixedly provided with a synchronous gear 37, an intermediate gear 38 positioned between the adjacent synchronous gears 37 is rotatably connected to the outer frame 1, the intermediate gear 38 is simultaneously meshed with the two adjacent synchronous gears 37, and one conveying shaft 31 is connected with an output shaft of a first driving motor 39;

each sleeve 32 positioned at the two ends of the conveying shaft 31 is fixedly provided with a swing gear 41, the outer frame 1 is provided with a rack 42 vertical to the conveying shaft 31, two ends of the rack 42 are respectively and fixedly provided with a pin shaft, the pin shafts are slidably connected to the outer frame 1, each swing gear 41 is meshed with the rack 42 at the same side, a connecting plate 43 is connected between the two pin shafts at the same side, a driving rod 44 is connected between the two connecting plates 43 through a bearing, the driving rod 44 is in threaded connection with the outer frame 1, and one end of the driving rod 44 is connected with an output shaft of a driving motor II 45;

the conveying shaft 31 is located below the horizontal plane of each longitudinal conveying roller 3, and the crankshaft 33 is rotatable above the horizontal plane of each longitudinal conveying roller 3.

Each vertical conveying roller 3 that equidistant setting forms the transfer chain that carries out vertical transport to glass, and each horizontal conveying roller 2 that equidistant setting forms the transfer chain that carries out horizontal transport to glass, and each vertical conveying roller 3's rotation mode is conventional mode, also all exists in the current transfer chain, is used for driving the mode that glass removed.

When the longitudinal conveying roller 3 conveys the glass longitudinally, the crankshafts 33 of the transverse conveying rollers 2 are positioned below the plane of the longitudinal conveying roller 3, and the control mode is as follows: the driving rod 44 is driven to rotate by the second driving motor 45, and under the action of the screw thread, the driving rod 44 moves along the direction of the screw thread, so that the two racks 42 are pushed to move, the sleeves 32 are driven to rotate, and the crankshaft 33 is driven to swing and stop when swinging to be positioned below the plane of the longitudinal conveying roller 3.

When the longitudinal conveying roller 3 is idle, the crankshaft 33 is driven in the same way, the crankshaft 33 is positioned above the horizontal plane of the longitudinal conveying roller 3 and stops, the conveying shaft 31 is driven to rotate through the first driving motor 39, the transmission gear 35 is driven to rotate, the transmission gear 35 drives the driven gear 36 and the driving roller 34 fixedly connected with the driven gear 36 to rotate, and therefore the glass supported by the driving roller 34 is driven to move transversely.

This plummer can be with originally being located glass on longitudinal feed roller 3 and change to horizontal feed roller 2, also can be with originally being located glass on horizontal feed roller 2 and change to longitudinal feed roller 3 on.

As shown in fig. 3, by providing two longitudinal conveying lines 6 and two transverse conveying lines 5, the two longitudinal conveying lines 6 and the three longitudinal conveying rollers 3 are located on the same horizontal plane, the two transverse conveying lines 5 and the three driving rollers 34 are located on the same horizontal plane, the plane where the transverse conveying line 5 is located is lower than the plane where the longitudinal conveying line 6 is located, the longitudinal conveying line 6 is perpendicular to the transverse conveying line 5, and the two longitudinal conveying lines 6 and the two transverse conveying lines 5 are located outside the four frames of the outer frame 1 respectively.

Utilize two horizontal transfer chain 5 and two vertical transfer chain 6 to form the cross transport path of a transport glass, outer frame 1 position is the crossroad, can realize the switching of glass between arbitrary horizontal transfer chain 5 and arbitrary vertical transfer chain 6, realize the turn of glass transport path, utilize a plurality of structures as above, form the field word check transport network of carrying glass, be used for the multistation operation or avoid the path to interfere and keep in glass, saving workshop space to can bigger degree, also can play very big improvement operation to the transport efficiency of transfer chain, the human cost and the transportation risk that frequent upper and lower lines caused have been avoided.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (1)

1. The utility model provides a receiving platform that transfer chain used about glass, its characterized in that, this receiving platform includes the outer frame (1) that is the rectangle, equidistant vertical conveying roller (3) and the horizontal conveying roller (2) that a plurality of equidistant settings that are parallel to each other that are provided with in the outer frame (1), vertical conveying roller (3) include one transport axle (31), a plurality of sleeve (32), a plurality of bent axle (33), with bent axle (33) one-to-one driving roller (34), with driving roller (34) one-to-one drive gear (35) and with drive gear (35) one-to-one driven gear (36), each bent axle (33) are fixed to be set up between adjacent sleeve (32), transport axle (31) rotates and connects in sleeve (32), driving roller (34) are fixed on bent axle (33), driven gear (36) are fixed on driving roller (34), the transmission gear (35) is fixed on the conveying shaft (31), and the transmission gear (35) is meshed with the corresponding driven gear (36);

each conveying shaft (31) is fixedly provided with a synchronous gear (37), an intermediate gear (38) positioned between adjacent synchronous gears (37) is rotatably connected to the outer frame (1), the intermediate gear (38) is simultaneously meshed with two adjacent synchronous gears (37), and one conveying shaft (31) is connected with an output shaft of a first driving motor (39);

the conveying mechanism is characterized in that a swing gear (41) is fixedly arranged on each sleeve (32) at two ends of the conveying shaft (31), a rack (42) perpendicular to the conveying shaft (31) is arranged on the outer frame (1), a pin shaft is fixedly arranged at two ends of each rack (42) and is slidably connected to the outer frame (1), each swing gear (41) is meshed with the rack (42) on the same side of the swing gear, a connecting plate (43) is connected between the two pin shafts on the same side, a driving rod (44) is connected between the two connecting plates (43) through a bearing, the driving rod (44) is in threaded connection with the outer frame (1), and one end of the driving rod (44) is connected with an output shaft of a second driving motor (45);

the conveying shaft (31) is positioned below the horizontal plane of each longitudinal conveying roller (3), and the crankshaft (33) can rotate to the position above the horizontal plane of each longitudinal conveying roller (3).

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