CN101066726A - Continuous conveyor - Google Patents

Abstract

The continuous conveyer includes one first conveying unit; one first driving device driving the first conveying unit and including one first gear on the first conveying unit and one second gear set on the transmission shaft and meshed with the first gear; one second conveying unit near the first one and rotating freely without connection with driving device or driven with one second driving device comprising one third gear on the second conveying unit and one fourth gear set on the transmission shaft and meshed with the first gear. The transmission ratio between the first gear and the second gear is different from that between the third gear and the four gear, so that the first conveying unit and the second conveying unit have different rotation speeds to ensure fluent conveying.

Description

Continuous conveying device

Technical field

The present invention relates to a kind of continuous conveying device, be meant a kind of continuous conveying device especially with different delivery speeies.

Background technology

The universal of science and technology makes people's daily life more convenient, so people are for the demand increase of sci-tech product.Therefore, the builder of sci-tech product all makes these sci-tech products with automated mechanical.And these common automated machines comprise continuous conveying device mostly.

Existing continuous conveying device all roller is set or conveying brings conveying workpieces.When a technological process of workpiece proceeds to next technological process, carry with continuous conveying device mostly.Yet the technological process time of some workpiece is longer, if workpiece is delivered to the long time process process by continuous conveying device, is easy to generate the phenomenon of workpiece plug-back, even produces that workpiece is pushed mutually and the phenomenon of damaging.Therefore, continuous conveying device must be adjusted the delivery speed of continuous conveying device according to the length of technological process time.Therefore, continuous conveying device is that different technological processes is carried with different speed mostly.

Yet, desire to make continuous conveying device to have different speed of transmission, must make the roller at continuous conveying device two ends or load-transfer device has different delivery speeies respectively.And the continuous conveying device cost of the different delivery speeies of tool is high; If repack the continuous conveying device of the different delivery speeies of tool into the continuous conveying device of old single delivery speed, then must change mechanism and purchase motor and server, thereby need paid a huge recondition expense.If can utilize old continuous conveying device conveying workpieces, and do not cause the phenomenon of workpiece plug-back, then must promote production efficiency, and save productive costs.

Summary of the invention

Therefore, the invention provides a kind of continuous conveying device, it utilizes old continuous conveying device conveying workpieces, need not pay a huge recondition expense, stop up when not only avoiding workpiece to carry, and increase the smooth degree of workpiece when carrying, so can solve the problem that prior art runs into.

One object of the present invention is, a kind of continuous conveying device is provided, its first supply unit and second supply unit by having different rotating speeds, make workpiece be transported to second supply unit by first supply unit, or when being transported to first supply unit by second supply unit, the infringement of stopping up or colliding when avoiding workpiece to carry is to increase the smooth degree of workpiece when carrying.

Another object of the present invention is to, a kind of continuous conveying device is provided, it is provided with first supply unit, second supply unit and the 3rd supply unit in regular turn, make first supply unit have different delivery speeies, and make first supply unit and the 3rd supply unit have identical or different delivery speed with second supply unit.When so making workpiece be delivered to the 3rd supply unit by first supply unit, by second supply unit of different delivery speeies, the smooth degree during with increase continuous conveying device conveying workpieces.

Continuous conveying device of the present invention comprises: first supply unit, and it is connected in first actuating device, is driven by this first actuating device; First actuating device, it has transmission shaft, first gear and second gear, and wherein first geared sleeve is located on described first supply unit, and second geared sleeve is located on the described transmission shaft, and this first gear is meshed with this second gear; And at least one second supply unit, this second supply unit is adjacent to first supply unit, and this second supply unit is in free rotary state, and it is not connected with actuating device.

The present invention also provides a kind of continuous conveying device, and this device comprises: first supply unit, and it is connected in first actuating device, is driven by this first actuating device; First actuating device, it has transmission shaft, first gear and second gear, and wherein said first geared sleeve is located on first supply unit, and this second geared sleeve is located on the described transmission shaft, and this first gear is meshed with this second gear; And at least one second supply unit, this second supply unit is adjacent to first supply unit, and this second supply unit is connected in second actuating device, is driven by second actuating device; Second actuating device, this second actuating device has the 3rd gear and the 4th gear, and wherein the 3rd geared sleeve is located on second supply unit, and the 4th gear is arranged on the described transmission shaft, and the 3rd gear is meshed with the 4th gear; Wherein, the transmitting ratio between described first gear and second gear is greater than or less than the transmitting ratio between the 3rd gear and the 4th gear.

Like this, first supply unit and second supply unit by different rotating speeds, avoiding workpiece to be transported to second supply unit, or stop up when being transported to first supply unit, to increase the smooth degree of workpiece when carrying by second supply unit by first supply unit.In above-mentioned continuous conveying device, also can comprise the 3rd supply unit, it is connected in the second supply unit rear end.When so making workpiece be delivered to the 3rd supply unit by first supply unit, by second supply unit of different delivery speeies, the smooth degree during with increase continuous conveying device conveying workpieces.

Description of drawings

Fig. 1 is the structural representation of preferred embodiment of the present invention;

Fig. 2 is the structural representation of another preferred embodiment of the present invention;

Fig. 3 is the structural representation of another preferred embodiment of the present invention; And

Fig. 4 is the structural representation of another preferred embodiment of the present invention.

Main figure number explanation:

5 workpiece, 10 first supply units, 12 first rollers

14 second rollers, 20 first actuating devices, 22 first gears

24 second gears, 30 transmission shafts, 40 second actuating devices

42 the 3rd gears 44 the 4th gear, 50 second supply units

60 the 3rd supply units

The specific embodiment

See also Fig. 1, it is for the structural representation of preferred embodiment of the present invention; As shown in the figure, continuous conveying device of the present invention comprises first supply unit 10, first supply unit 10 comprises a plurality of first rollers 12, second supply unit 50 includes second roller 14, second roller 14 is arranged at the place ahead or the rear of a plurality of first rollers 12, and first roller 12 is different with the rotating speed of second roller 14.The infringement of stopping up or colliding in the time of so can avoiding workpiece 5 to carry is to increase the smooth degree of workpiece 5 when carrying.

Existing continuous conveying device drives first roller 12 and second roller 14 by first actuating device 20.First actuating device 20 comprises first gear 22 and second gear 24, and wherein first gear 22 is sheathed on the two ends of first roller 12 and second roller 14, and second gear 24 is arranged on the transmission shaft 30, and first gear 22 is meshed with second gear 24.When driving second gear 24 when transmission shaft 30 rotations, second gear 24 drives first gears 22 and orders about first roller 12 and 14 rotations of second roller.

According to embodiments of the invention, first gear 22 that is sheathed on second roller, 14 two ends is removed, only allow first actuating device 20 drive first roller 12, allow second roller 14 dally, thereby be in free rotary state, when therefore workpiece 5 is delivered to second roller 14 by first roller 12 with a speed, by second roller 14 that is in free rotary state workpiece 5 is carried, in the time of so can making workpiece 5 be transported to second roller 14 by first roller 12, avoid workpiece 5 to be jammed in continuous conveying device, to increase the smooth degree of workpiece 5 when carrying.

See also Fig. 2, it is for the structural representation of another preferred embodiment of the present invention; As shown in the figure, second roller 14 of this embodiment further is connected in second actuating device 40, is driven by second actuating device 40.Second actuating device 40 comprises the 3rd gear 42 and the 4th gear 44.The 3rd gear 42 is sheathed on the two ends of second roller 14, and the 4th gear 44 is arranged on the transmission shaft 30, and the 3rd gear 42 is meshed with the 4th gear 44.When driving the 4th gear 44 when transmission shaft 30 rotations, the 4th gear 44 drives the 3rd gears 42 and drives second roller 14.Wherein first gear 22 in this first actuating device 20 and the transmitting ratio between second gear 24 are greater than or less than the 3rd gear 42 in second actuating device 40 and the transmitting ratio between the 4th gear 44, thereby make second supply unit 50 have the rotating speed different with first supply unit 10.

This embodiment is identical with the number of teeth of first gear 22 with the number of teeth of the 3rd gear 42, and than the number of teeth of second gear 24 how as an illustration the number of teeth of the 4th gear 44.Therefore, when transmission shaft 30 rotations, second gear 24 is identical with the 4th gear 44 rotating cycles, but because the number of teeth of the 4th gear 44 is many than the number of teeth of second gear 24, therefore the 3rd gear 42 rotating cycles must be than first gear more than 22.Be in the same time, the rotating speed of second roller 14 is greater than the rotating speed of first roller 12.Workpiece 5 is increased by the smooth degree that first roller 12 is transported to second roller 14.

So, when workpiece 5 is transported to second roller 14 by first roller 12, only need make the number of teeth of the 4th gear 44 many than the number of teeth of second gear 24, make the rotating speed of the rotating speed of second roller 14 greater than first roller 12.Same, when workpiece 5 is transported to first roller 12 by second roller 14, only need make the number of teeth of the 4th gear 44 few than the number of teeth of second gear 24.Perhaps, make the number of teeth of the 4th gear 44 identical, and make the number of teeth of the number of teeth of the 3rd gear 42, make the rotating speed of the rotating speed of first roller 12 greater than second roller 14 less than first gear 22 with the number of teeth of second gear 24.In the time of so can making workpiece 5 be transported to second roller 14 or second roller 14 and be transported to first roller 12 by first roller 12, can avoid workpiece 5 to be jammed in continuous conveying device, to increase the smooth degree of workpiece 5 when carrying, more need not significantly change the structure of continuous conveying device, to save manufacturing cost.

See also Fig. 3, it is for the structural representation of another preferred embodiment of the present invention; As shown in the figure, the present invention also can be used in load-transfer device (conveyor), and promptly first supply unit 10 and second supply unit 50 are all load-transfer device.The side that load-transfer device has a plurality of first rollers 12 is first delivery area, and the opposite side with a plurality of second rollers 14 is second delivery area.First roller 12 is driven by actuating device, and second roller 14 is not driven by any actuating device.The mode that drives can be as the embodiment of Fig. 1.

Perhaps, first roller 12 is driven by different actuating devices respectively with second roller 14, makes first delivery area have different delivery speeies with second delivery area.In the time of so can making workpiece 5 be delivered to second delivery area, avoid workpiece 5 to be jammed in continuous conveying device, the smooth degree when carrying to increase workpiece by first delivery area.

See also Fig. 4, it is for the structural representation of another preferred embodiment of the present invention; As shown in the figure, present embodiment is different from an embodiment part and is, present embodiment is except first supply unit 10 and second supply unit 50, and present embodiment has comprised that also the 3rd supply unit 60, the second supply units 50 are connected in first supply unit, 10 rear ends; The 3rd supply unit 60 is connected in second supply unit, 50 rear ends.First supply unit 10 has different delivery speeies with second supply unit 50, and first supply unit 10 and the 3rd supply unit 60 have identical or different delivery speed.This embodiment is all load-transfer device as an illustration with first supply unit 10, second supply unit 50 and the 3rd supply unit 60, and first supply unit 10 and the 3rd supply unit 60 have actuating device and are driven, and second supply unit 50 does not drive with actuating device.

When workpiece 5 is delivered to the 3rd supply unit 60 by first supply unit 10, not having an actuating device because of second supply unit 50 drives, when therefore workpiece 5 is delivered to second supply unit 50 by first supply unit 10,, via the 3rd supply unit 60 fast speedes workpiece 5 is carried again as buffering by second supply unit 50.Perhaps second supply unit 50 also can use an actuating device to drive, and the delivery speed that makes second supply unit 50 is greater than first supply unit 10.Smooth degree in the time of so can increasing continuous conveying device conveying workpieces 5.And this embodiment explains with the delivery speed of first supply unit 10 and the 3rd supply unit 60 delivery speed less than second supply unit 50, also can adjust the delivery speed of second supply unit 50 according to different demands, make the delivery speed of the delivery speed of first supply unit 10 and the 3rd supply unit 60 greater than second supply unit 50; Or make the delivery speed of the delivery speed of the 3rd supply unit 60, and make the delivery speed of the delivery speed of second supply unit 50 greater than first supply unit 10 greater than second supply unit 50.As buffering, be jammed in continuous conveying device to avoid workpiece 5 by second supply unit 50, more the seismism that can avoid workpiece 5 to be produced when rapid transit reduces workpiece 5 and damages probability.

In sum, continuous conveying device of the present invention comprises a plurality of first rollers and second roller, and second roller is arranged at the place ahead or the rear of a plurality of first rollers, and make first roller have different rotating speeds with second roller, the smooth degree during with increase continuous conveying device conveying workpieces.Perhaps, the present invention comprises first supply unit, second supply unit and the 3rd supply unit in regular turn, and first supply unit has different delivery speeies with second supply unit.By second supply unit of different delivery speeies, the smooth degree during with increase continuous conveying device conveying workpieces.

The above, it only is a preferred embodiment of the present invention, be not to be used for limiting scope of the invention process, the equalization of doing according to the described shape of the present patent application claim, structure, feature and spirit changes and modifies such as, all should be included in the scope of the present invention.

Claims (20)

1, a kind of continuous conveying device is characterized in that, this device comprises:

First supply unit, it is connected in first actuating device, is driven by this first actuating device;

First actuating device, it has transmission shaft, first gear and second gear, and wherein first geared sleeve is located on described first supply unit, and second geared sleeve is located on the described transmission shaft, and this first gear is meshed with this second gear; And

At least one second supply unit, this second supply unit is adjacent to first supply unit, and this second supply unit is in free rotary state, and it is not connected with actuating device.

2, continuous conveying device as claimed in claim 1 is characterized in that, described first supply unit is load-transfer device or roller.

3, continuous conveying device as claimed in claim 1 is characterized in that, described second supply unit is load-transfer device or roller.

4, continuous conveying device as claimed in claim 1 is characterized in that, described continuous conveying device also comprises the 3rd supply unit, and it is connected in this second supply unit rear end.

5, continuous conveying device as claimed in claim 4 is characterized in that, described the 3rd supply unit is load-transfer device or roller.

6, continuous conveying device as claimed in claim 4 is characterized in that, the delivery speed of described the 3rd supply unit is greater than the delivery speed of described first supply unit.

7, a kind of continuous conveying device is characterized in that, this device comprises:

First supply unit, it is connected in first actuating device, is driven by this first actuating device;

First actuating device, it has transmission shaft, first gear and second gear, and wherein said first geared sleeve is located on first supply unit, and this second geared sleeve is located on the described transmission shaft, and this first gear is meshed with this second gear; And

At least one second supply unit, this second supply unit is adjacent to first supply unit, and second supply unit is connected in second actuating device, is driven by second actuating device;

Second actuating device, this second actuating device has the 3rd gear and the 4th gear, and wherein the 3rd geared sleeve is located on second supply unit, and the 4th gear is arranged on the described transmission shaft, and the 3rd gear is meshed with the 4th gear;

Wherein, the transmitting ratio between described first gear and second gear is greater than or less than the transmitting ratio between the 3rd gear and the 4th gear.

8, continuous conveying device as claimed in claim 7 is characterized in that, the number of teeth of described the 3rd gear is less than the number of teeth of described first gear.

9, continuous conveying device as claimed in claim 7 is characterized in that, the number of teeth of described the 4th gear is greater than the number of teeth of described second gear.

10, continuous conveying device as claimed in claim 7 is characterized in that, the number of teeth of described the 3rd gear is greater than the number of teeth of described first gear.

11, continuous conveying device as claimed in claim 7 is characterized in that, the number of teeth of described the 4th gear is less than the number of teeth of described second gear.

12, continuous conveying device as claimed in claim 7 is characterized in that, described first supply unit is load-transfer device or roller.

13, continuous conveying device as claimed in claim 7 is characterized in that, described second supply unit is load-transfer device or roller.

14, continuous conveying device as claimed in claim 7 is characterized in that, the rotating speed of described second supply unit is greater than the rotating speed of described first supply unit.

15, continuous conveying device as claimed in claim 7 is characterized in that, the rotating speed of described second supply unit is less than the rotating speed of described first supply unit.

16, continuous conveying device as claimed in claim 7 is characterized in that, described continuous conveying device also comprises the 3rd supply unit, and it is connected in this second supply unit rear end.

17, continuous conveying device as claimed in claim 16 is characterized in that, the 3rd supply unit is roller or load-transfer device.

18, continuous conveying device as claimed in claim 16 is characterized in that, the delivery speed of described first supply unit and described the 3rd supply unit is greater than the delivery speed of described second supply unit.

19, continuous conveying device as claimed in claim 16 is characterized in that, the delivery speed of described first supply unit and described the 3rd supply unit is less than the delivery speed of described second supply unit.

20, continuous conveying device as claimed in claim 16 is characterized in that, the delivery speed of described the 3rd supply unit is greater than the delivery speed of described first supply unit.

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