CN108313633A

CN108313633A - A kind of driving structure for chain-linked conveyer

Info

Publication number: CN108313633A
Application number: CN201810374726.XA
Authority: CN
Inventors: 张四通; 朱杰
Original assignee: Individual
Current assignee: Hebei Luangu Technology Co Ltd
Priority date: 2018-04-24
Filing date: 2018-04-24
Publication date: 2018-07-24
Anticipated expiration: 2038-04-24
Also published as: CN108313633B

Abstract

The present invention relates to a kind of driving structures for chain-linked conveyer, including motor, input shaft, output shaft, the first regular hexagon sprocket wheel, drive chain and vibration proof drive mechanism, the motor is sequentially connected with input shaft, the input shaft is sequentially connected by vibration proof drive mechanism and output shaft, the output shaft is sequentially connected with the first regular hexagon sprocket wheel, the first regular hexagon sprocket wheel drives drive chain rotation, and the vibration proof drive mechanism is for eliminating the vibration that the first regular hexagon sprocket wheel generates in rotation process in drive chain.When first pinion gear drives second pinion rotation, second pinion gear has the fluctuation in speed, and by roller chain by the Wave transmission in the speed to the second regular hexagon sprocket wheel, the first regular hexagon sprocket wheel is further transferred to by output shaft, the most fluctuation offset in drive chain of fluctuation energy in the speed, realizes the more stable rotation of chain.

Description

A kind of driving structure for chain-linked conveyer

Technical field

The present invention relates to chain-linked conveyer technical field more particularly to a kind of driving structures for chain-linked conveyer.

Background technology

Chain-linked conveyer with regular polygon structure sprocket wheel can carry more compared to the chain-linked conveyer of circular chain-wheel Big torque, to which more materials, such as notification number can be conveyed within the unit interval：CN202296155U, publication date：2012 A kind of plate type scraper for residual coke of coke oven, such as Fig. 1 are recorded in the patent document on July 4, in, which includes shell, described Driving motor is equipped in shell, the driving motor connects two chain-plate type chain drive pairs, the chain-plate type chain by a transmission mechanism Transmission includes drive sprocket, driven sprocket and the chain-plate type chain being stretched between drive sprocket and driven sprocket, two chains The chain-plate type chain of leaf chain transmission is arranged in parallel, and correspondence spaced apart between two chain-plate type chains is fixedly connected It has a surplus burnt scraper plate.Drive sprocket is all made of regular hexagon structure with driven sprocket in the utility model, simple in structure, and overload is protected Shield performance is strong, however regular hexagon sprocket wheel can cause the vibration of chain in transmission process and influence the stability that material conveys. In order to solve the problems, such as that chain is fluctuated in transmission process, notification number：CN107654594A, publication date：On 2 2nd, 2018 special A kind of chain and sprocket driving device without fluctuation transmission is recorded in sharp file, such as Fig. 2, it includes chain-wheel mechanism, chain, and wherein chain is pacified On two chain-wheel mechanisms；The effect of chain-wheel mechanism is to be on the one hand to drive chain movement, is on the other hand to disappear Fluctuation when except chain-wheel mechanism drive chain；The effect that chain is mounted on two chain-wheel mechanisms is two chain-wheel mechanisms of connection, To achieve the purpose that one of sprocket wheel can drive another sprocket wheel to rotate.However in the patent document by spring and The effect is unsatisfactory with the scheme of eliminating fluctuation for sliding block, and the vibration of chain is also solved not in basic reason.

Invention content

Regarding the issue above, the present invention provides it is a kind of it is being solved in basic reason, chain can be eliminated well The driving structure of item fluctuation.In order to achieve the above objectives, present invention employs following technical proposals：

A kind of driving structure for chain-linked conveyer, including motor, input shaft, output shaft, the first regular hexagon sprocket wheel, driving Chain and vibration proof drive mechanism, the motor and input shaft are sequentially connected, the input shaft by vibration proof drive mechanism with Output shaft is sequentially connected, and the output shaft is sequentially connected with the first regular hexagon sprocket wheel, the first regular hexagon sprocket wheel Drive chain rotation is driven, the vibration proof drive mechanism is for eliminating first regular hexagon sprocket wheel drive chain in rotation process The vibration generated on item.

Further, the vibration proof drive mechanism includes the second regular hexagon sprocket wheel, roller chain, the first pinion gear, Two pinion axis, the second pinion gear, gear wheel, big sprocket wheel and rotation axis, the second regular hexagon sprocket wheel are fixed at institute It states on output shaft, and the second regular hexagon sprocket wheel and projection weight of the first regular hexagon sprocket wheel in front view direction It closes, the second regular hexagon sprocket wheel is identical as the first regular hexagon sprocket wheel size, specification, output shaft driving rotation hour angle Degree synchronizes, and the input shaft is arranged on the right side of the second regular hexagon sprocket wheel, and first pinion gear is eccentrically set on institute It states on input shaft, the second pinion shaft is provided on the right side of the input shaft, eccentric setting has on second pinion shaft Two pinion, first pinion gear is identical with the eccentric position of the second pinion gear, first pinion gear and the second pinion gear It engages, third pinion is further fixedly arranged on second pinion shaft, is provided on the right side of second pinion shaft The rotation axis, the gear wheel are fixed in the rotation axis, and the third pinion is engaged with the gear wheel, institute The diameter for stating gear wheel is six times of the diameter of the third pinion, and big sprocket wheel is further fixedly arranged in the rotation axis, described Big sprocket wheel is sequentially connected by roller chain and the second regular hexagon sprocket wheel, and the roller chain is fine pith roller chain.

Further, the first regular hexagon sprocket wheel and the second regular hexagon sprocket wheel on be provided with triangle and subtract Baking soda.

Further, it is provided with round lightening hole in triangle weight loss groove.

Further, it is provided with lightening hole in the big sprocket wheel.

Further, it is provided with lightening hole on the gear wheel.

The present invention has significant technique effect as a result of above technical scheme：Since the pitch of roller chain is small, together When big sprocket wheel have larger diameter, therefore, the speed of roller chain is more stable.Due to first pinion gear and the second pinion gear Equal eccentric setting, therefore, when first pinion gear drives second pinion rotation, second pinion gear has speed On fluctuation, and by roller chain by the Wave transmission in the speed to the second regular hexagon sprocket wheel, further by defeated Shaft is transferred to the first regular hexagon sprocket wheel, and the most fluctuation offset in drive chain of fluctuation energy in the speed is realized The more stable rotation of chain.

Description of the drawings

Fig. 1 is the structural schematic diagram one of transmission device in the prior art；

Fig. 2 is the structural schematic diagram two of transmission device in the prior art；

Fig. 3 is the structural schematic diagram one of the middle driving structure of the present invention；

Fig. 4 is the structural schematic diagram two of the middle driving structure of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Embodiment 1

A kind of driving structure for chain-linked conveyer, as shown in Figure 3-4, including motor, input shaft 5, output shaft 3, first are just Hexagon sprocket wheel 12, drive chain 1 and vibration proof drive mechanism, the motor are sequentially connected with input shaft 5, the input shaft 5 It is sequentially connected by vibration proof drive mechanism and output shaft 2, the output shaft 2 connects with the first regular hexagon sprocket wheel 12 transmission It connects, the first regular hexagon sprocket wheel 12 drives drive chain 1 to rotate, and the vibration proof drive mechanism is for eliminating first positive six The vibration that side shape sprocket wheel 12 generates in rotation process in drive chain 1.

As shown in Figure 3-4, the vibration proof drive mechanism includes the second regular hexagon sprocket wheel 4, roller chain 2, the first small tooth Take turns the 6, second pinion shaft 7, the second pinion gear 8, gear wheel 9, big sprocket wheel 10 and rotation axis 11, the second regular hexagon sprocket wheel 4 are fixed on the output shaft 3, and the second regular hexagon sprocket wheel 4 and the first regular hexagon sprocket wheel 12 are just Projection in view overlaps, and the second regular hexagon sprocket wheel 4 is identical as 12 size of the first regular hexagon sprocket wheel, specification, Angle synchronizes when the driving rotation of output shaft 3, and the input shaft 5 is arranged on the right side of the second regular hexagon sprocket wheel 4, and described the One pinion gear 6 is eccentrically set on the input shaft 5, and the right side of the input shaft 5 is provided with the second pinion shaft 7, and described Eccentric setting has the second pinion gear 8, the eccentric position phase of first pinion gear, 6 and second pinion gear 8 on two pinion axis 7 Together, first pinion gear 6 is engaged with the second pinion gear 8, and the small tooth of third is further fixedly arranged on second pinion shaft 7 Wheel, second pinion shaft, 7 right side are provided with the rotation axis 11, and the gear wheel 9 is fixed at the rotation On axis 11, the third pinion is engaged with the gear wheel 9, and the diameter of the gear wheel is the diameter of the third pinion Six times, big sprocket wheel 10 is further fixedly arranged in the rotation axis 11, the big sprocket wheel 10 passes through roller chain 2 and described second positive six Side shape sprocket wheel 4 is sequentially connected, and the roller chain 2 is fine pith roller chain.

Motor rotates, and band driven input shaft 5 rotates, and input shaft 5 drives the rotation of the first pinion gear 6, the first pinion gear 6 and second Pinion gear 8 engages, and the second pinion gear 8 drives second pinion shaft 7 to rotate, and the second pinion shaft 7 drives third pinion Rotation, third pinion are engaged with gear wheel 9, and gear wheel 9 drives rotation axis 11 to rotate, and rotation axis 11 drives 10 turns of big sprocket wheel Dynamic, big sprocket wheel 10 drives the second regular hexagon sprocket wheel 4, the second regular hexagon sprocket wheel 4 that output shaft 3 is driven to rotate by roller chain 2, Output shaft 3 drives the rotation of the first regular hexagon sprocket wheel 12, the first regular hexagon sprocket wheel 12 that drive chain 1 is driven to rotate, due to rolling The pitch of subchain 2 is small, while big sprocket wheel 10 has larger diameter, and therefore, the speed of roller chain 2 is more stable.Due to described 8 equal eccentric setting of one pinion gear 6 and the second pinion gear, therefore, first pinion gear 6 drives second pinion rotation When, second pinion gear has the fluctuation in speed, and by roller chain 2 by the Wave transmission in the speed to described second Regular hexagon sprocket wheel 4 is further transferred to the first regular hexagon sprocket wheel 12 by output shaft 3, and the fluctuation in the speed can big portion The fluctuation in counteracting drive chain 1 divided, realizes the more stable rotation of chain 1.

The first regular hexagon sprocket wheel 12 and the second regular hexagon sprocket wheel 4 on be provided with triangle weight loss groove.

Round lightening hole is provided in triangle weight loss groove.

It is provided with lightening hole in the big sprocket wheel 10.

It is provided with lightening hole on the gear wheel 9.

Embodiment 2

A kind of driving structure for chain-linked conveyer, as shown in Figure 3-4, including motor, input shaft 5, output shaft 3, first are just Octagon sprocket wheel 12, drive chain 1 and vibration proof drive mechanism, the motor are sequentially connected with input shaft 5, the input shaft 5 It is sequentially connected by vibration proof drive mechanism and output shaft 2, the output shaft 2 connects with the first octagon sprocket wheel 12 transmission It connects, the first octagon sprocket wheel 12 drives drive chain 1 to rotate, and the vibration proof drive mechanism is for eliminating first positive eight The vibration that side shape sprocket wheel 12 generates in rotation process in drive chain 1.

As shown in Figure 3-4, the vibration proof drive mechanism includes the second octagon sprocket wheel 4, roller chain 2, the first small tooth Take turns the 6, second pinion shaft 7, the second pinion gear 8, gear wheel 9, big sprocket wheel 10 and rotation axis 11, the second octagon sprocket wheel 4 are fixed on the output shaft 3, and the second octagon sprocket wheel 4 and the first octagon sprocket wheel 12 are just Projection in view overlaps, and the second octagon sprocket wheel 4 is identical as 12 size of the first octagon sprocket wheel, specification, Angle synchronizes when the driving rotation of output shaft 3, and the input shaft 5 is arranged on the right side of the second octagon sprocket wheel 4, and described the One pinion gear 6 is eccentrically set on the input shaft 5, and the right side of the input shaft 5 is provided with the second pinion shaft 7, and described Eccentric setting has the second pinion gear 8, the eccentric position phase of first pinion gear, 6 and second pinion gear 8 on two pinion axis 7 Together, first pinion gear 6 is engaged with the second pinion gear 8, and the small tooth of third is further fixedly arranged on second pinion shaft 7 Wheel, second pinion shaft, 7 right side are provided with the rotation axis 11, and the gear wheel 9 is fixed at the rotation On axis 11, the third pinion is engaged with the gear wheel 9, and the diameter of the gear wheel is the diameter of the third pinion It is octuple, big sprocket wheel 10 is further fixedly arranged in the rotation axis 11, the big sprocket wheel 10 passes through roller chain 2 and described second positive eight Side shape sprocket wheel 4 is sequentially connected, and the roller chain 2 is fine pith roller chain.

Motor rotates, and band driven input shaft 5 rotates, and input shaft 5 drives the rotation of the first pinion gear 6, the first pinion gear 6 and second Pinion gear 8 engages, and the second pinion gear 8 drives second pinion shaft 7 to rotate, and the second pinion shaft 7 drives third pinion Rotation, third pinion are engaged with gear wheel 9, and gear wheel 9 drives rotation axis 11 to rotate, and rotation axis 11 drives 10 turns of big sprocket wheel Dynamic, big sprocket wheel 10 drives the second octagon sprocket wheel 4, the second octagon sprocket wheel 4 that output shaft 3 is driven to rotate by roller chain 2, Output shaft 3 drives the rotation of the first octagon sprocket wheel 12, the first octagon sprocket wheel 12 that drive chain 1 is driven to rotate, due to rolling The pitch of subchain 2 is small, while big sprocket wheel 10 has larger diameter, and therefore, the speed of roller chain 2 is more stable.Due to described 8 equal eccentric setting of one pinion gear 6 and the second pinion gear, therefore, first pinion gear 6 drives second pinion rotation When, second pinion gear has the fluctuation in speed, and by roller chain 2 by the Wave transmission in the speed to described second Octagon sprocket wheel 4 is further transferred to the first octagon sprocket wheel 12 by output shaft 3, and the fluctuation in the speed can big portion The fluctuation in counteracting drive chain 1 divided, realizes the more stable rotation of chain 1.

The first octagon sprocket wheel 12 and the second octagon sprocket wheel 4 on be provided with triangle weight loss groove.

Round lightening hole is provided in triangle weight loss groove.

It is provided with lightening hole in the big sprocket wheel 10.

It is provided with lightening hole on the gear wheel 9.

Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality It applies all possible combination of each piece of technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the range of this specification record.

Embodiments of the present invention above described embodiment only expresses, the description thereof is more specific and detailed, but can not Therefore it is interpreted as the limitation to the scope of the claims of the present invention.It should be pointed out that for those of ordinary skill in the art, Without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection model of the present invention It encloses.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims

1. a kind of driving structure for chain-linked conveyer, including motor, input shaft, the first regular hexagon sprocket wheel, drive output shaft Dynamic chain and vibration proof drive mechanism, the motor are sequentially connected with input shaft, and the input shaft passes through vibration proof drive mechanism It is sequentially connected with output shaft, the output shaft is sequentially connected with the first regular hexagon sprocket wheel, the first regular hexagon chain Wheel drives drive chain rotation, which is characterized in that the vibration proof drive mechanism is turning for eliminating the first regular hexagon sprocket wheel The vibration generated in drive chain during dynamic.

2. a kind of driving structure for chain-linked conveyer according to claim 1, which is characterized in that the vibration proof passes Dynamic structure includes, the second regular hexagon sprocket wheel, roller chain, the first pinion gear, the second pinion shaft, the second pinion gear, gear wheel, Big sprocket wheel and rotation axis, the second regular hexagon sprocket wheel are fixed on the output shaft, and second regular hexagon Sprocket wheel is overlapped with projection of the first regular hexagon sprocket wheel in front view direction, the second regular hexagon sprocket wheel with it is described First regular hexagon sprocket wheel size, specification are identical, and angle synchronizes when output shaft driving rotation, and input shaft setting is described the The right side of two regular hexagon sprocket wheels, first pinion gear are eccentrically set on the input shaft, are set on the right side of the input shaft It is equipped with the second pinion shaft, eccentric setting has the second pinion gear, first pinion gear and second on second pinion shaft The eccentric position of pinion gear is identical, and first pinion gear is engaged with the second pinion gear, also fixed on second pinion shaft It is provided with third pinion, the rotation axis, the gear wheel fixed setting are provided on the right side of second pinion shaft In the rotation axis, the third pinion is engaged with the gear wheel, and the diameter of the gear wheel is the small tooth of the third Six times of the diameter of wheel, is further fixedly arranged on big sprocket wheel in the rotation axis, the big sprocket wheel by roller chain with described second just Hexagon sprocket wheel is sequentially connected, and the roller chain is fine pith roller chain.

3. a kind of driving structure for chain-linked conveyer according to claim 1, which is characterized in that described first positive six Side shape sprocket wheel and the second regular hexagon sprocket wheel on be provided with triangle weight loss groove.

4. a kind of driving structure for chain-linked conveyer according to claim 1, which is characterized in that triangle weight loss groove In be provided with round lightening hole.

5. a kind of driving structure for chain-linked conveyer according to claim 1, which is characterized in that in the big sprocket wheel It is provided with lightening hole.

6. a kind of driving structure for chain-linked conveyer according to claim 1, which is characterized in that on the gear wheel It is provided with lightening hole.