CN210456245U - Material conveying horizontal main machine applying damping to rotate gear tooth driving wheel - Google Patents

Abstract

The utility model relates to a material conveying horizontal main machine applying damping to rotate a gear driving wheel, which structurally comprises a driver and a tensioner, wherein the driver comprises a driver shell, a driving motor and a speed reducer are arranged in the driver shell, and a damping rotating gear driving wheel is arranged on an output shaft of the speed reducer; the damping rotates the teeth of a cogwheel action wheel and includes the rim plate the outer circumference of rim plate evenly is equipped with a plurality of fixed teeth of a cogwheel it has the activity teeth of a cogwheel to connect through the round pin axle coupling on the fixed teeth of a cogwheel it rotates damping device to sell epaxial being provided with, it does to rotate kind damping device the activity teeth of a cogwheel provide the rotation resistance the rim plate side is provided with and is used for the restriction the retaining ring of activity teeth of a cogwheel rotational position, damping device adopt wave form packing ring etc.. The utility model discloses a conveying capacity is big, and conveying efficiency is high, and simple structure and the production maintenance of being convenient for are fit for as outer conveying system's driving host.

Description

Material conveying horizontal main machine applying damping to rotate gear tooth driving wheel

Technical Field

The utility model relates to a fodder pipeline conveying system drive arrangement, specifically speaking are horizontal host computer is carried to material of using damping rotation teeth of a cogwheel action wheel.

Background

In modern aquaculture, a pipeline conveying system is often used for conveying feed in a farm, the mode is high in efficiency, the feed can be kept sanitary and fresh, a large amount of labor cost can be saved, a conveying main machine is the most core technology in the pipeline conveying system, the conveying capacity of the main machine is strong and weak, and the quality directly influences the conveying capacity, use cost and maintenance cost of the pipeline conveying system.

At present, in a pipeline conveying system in the breeding industry, the conveying system can be divided into an indoor conveying system and an outdoor conveying system according to an application mode, and the outdoor conveying system has the functions as follows: the fodder pump sending in the fodder transport vechicle is to in the outdoor conveying system material tower, carry the fodder through outdoor pipeline in the interior conveying material tower of each preset position of plant, then via interior conveying pipe system, carry the fodder each indoor ration cup in, accomplish automatic transportation process then. But the market does not have the indoor outdoor function to conveying system clearly and definitely at present on the stage and does not divide into, and a plurality of plants are established ties a plurality of indoor conveying systems and are realized carrying the transport of material tower from the fodder car to interior, lead to like this to purchase the interior conveying system of many sets, and the input cost of plant early stage is high, simultaneously because interior conveying system transport efficiency is low, and the maintenance cost is high, so can not replace outer conveying system and pull the host computer.

And the existing conveying main machine has the characteristics of structure, particularly the defects of a driving wheel structure, so that the plug disc is over stressed and is easy to wear, and the conveying main machine can only operate in a lower load, thereby limiting the conveying capacity of the conveying main machine.

In view of the above, there is an urgent need for an external transportation system host with large transportation capacity, high transportation efficiency, simple structure and convenient production and maintenance.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an use damping to rotate horizontal host computer of material transport of teeth of a cogwheel action wheel to solve the problem that current fodder pipeline transport drive host computer delivery volume is little, conveying efficiency is low, maintenance cost is high.

The utility model discloses a realize like this: a horizontal material conveying host applying a damping rotating gear tooth driving wheel comprises a driver and a tensioner, wherein the driver comprises a driver shell, a driving motor and a speed reducer are arranged in the driver shell, and a damping rotating gear tooth driving wheel is arranged on an output shaft of the speed reducer; the damping rotation gear tooth driving wheel comprises a wheel disc, a plurality of fixed gear teeth are uniformly arranged on the outer circumference of the wheel disc, movable gear teeth are connected to the fixed gear teeth through a pin shaft, a rotation damping device is arranged on the pin shaft, the rotation damping device provides rotation resistance for the movable gear teeth, and a check ring used for limiting the rotation position of the movable gear teeth is arranged on the side face of the wheel disc.

The rotary damping device is a wave-shaped gasket which is sleeved on the pin shaft and is positioned on one side of the movable gear teeth.

The top of the fixed gear teeth is provided with a steel cable groove, two sides of each fixed gear tooth are respectively provided with one movable gear tooth, and the outer contour of each movable gear tooth is larger than that of each fixed gear tooth.

The outer circumference of the retainer ring is evenly provided with a plurality of limiting blocks, each limiting block corresponds to one movable gear tooth, and the limiting blocks are located on one side of the inner ring of the movable gear tooth.

The shell of the driver is divided into a front part and a rear part by a partition plate, the driving motor and the speed reducer are positioned behind the partition plate, the damping rotating gear driving wheel is positioned in front of the partition plate, and a driven wheel is arranged on one side of the damping rotating gear driving wheel in front of the partition plate; the front portion of driver shell is provided with inlet pipe, discharging pipe, direction inlet pipe and semicircle collecting pipe, the inlet pipe is located with the discharging pipe and keeps away from one side from the driving wheel, the direction discharging pipe with the direction inlet pipe is located from driving wheel place one side, semicircle collecting pipe is located the bottom of driver shell, just the discharging pipe with the direction inlet pipe is located respectively the both ends of semicircle collecting pipe, the inlet pipe is located the top of discharging pipe, the direction discharging pipe is located the top of direction inlet pipe.

The tensioner is communicated with the driver through the guide discharging pipe and the guide feeding pipe; the tensioner comprises a tensioner support, a tensioner mechanism is arranged in the tensioner support, a tensioner wheel is arranged on the tensioner mechanism, and the tensioner wheel moves left and right along with the tensioner mechanism.

The tensioning mechanism comprises a guide post horizontally arranged in the tensioner support, a guide sliding block is sleeved on the guide post, a tension spring is arranged on the guide sliding block, one end of the tension spring is directly or indirectly connected with the guide sliding block, and the other end of the tension spring is connected with one end, far away from the driver, of the tensioner support.

The utility model discloses constitute by driver and tight ware that rises, provide power for the cable wire plug disc by the driver, thereby adjust the tensile force adaptation cable wire plug disc length change when using of cable wire plug disc through tight ware that rises, avoid the off tracking and the chain phenomenon of plug disc. The action wheel adopts the damping to rotate the teeth of a cogwheel action wheel, the movable teeth of a cogwheel of damping rotation teeth of a cogwheel action wheel can be rotatory around the round pin axle, when the damping rotates the teeth of a cogwheel action wheel rotatory, the cock disc one by one with movable teeth of a cogwheel intermeshing, the cock disc makes movable teeth of a cogwheel atress rotatory, move to the in-process that will deviate from the damping and rotate the teeth of a cogwheel action wheel at the cock disc, the rotation of activity teeth of a cogwheel meeting adaptability makes the teeth of a cogwheel and cock disc be in the complete mesh state always, thereby improve the stress. The steel cable plug disc enters from a feeding pipe above the driver, downwardly bypasses a damping rotating gear tooth driving wheel, then upwardly bypasses a driven wheel, enters the tensioner through the guide discharging pipe, bypasses the tension wheel, returns to the driver through the guide discharging pipe, and finally leaves from the driver through the discharging pipe.

The utility model discloses a conveying capacity is big, and conveying efficiency is high, and simple structure and the production maintenance of being convenient for are fit for as outer conveying system's driving host.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Figure 3 is a rear view of the drive of the present invention with the rear cover removed.

Fig. 4 is a schematic structural view of the damping rotating wheel tooth driving wheel of the present invention.

Fig. 5 is a cross-sectional view of the fixed gear teeth and the movable gear teeth of the damping rotating gear teeth driving wheel of the present invention.

Fig. 6 is a schematic diagram of the wave-shaped gasket of the present invention located on the outer side surface of the movable gear teeth.

Fig. 7 is a rear view of the tensioner of the present invention with the rear cover removed.

In the figure: 1. a driver; 2. a tensioner; 3. a damping rotating gear tooth driving wheel; 4. a driven wheel; 5. a drive motor; 6. a speed reducer; 7. a partition plate; 8. a driver housing; 9. a feed pipe; 10. a discharge pipe; 11. guiding the discharge pipe; 12. guiding the feeding pipe; 13. a semicircular material collecting pipe; 14. a tensioner bracket; 15. a tensioning mechanism; 16. a tension wheel; 17. a wire rope plug disc; 3-1, a wheel disc; 3-2, shaft holes; 3-3, a hub ring; 3-4, fixing gear teeth; 3-5, movable gear teeth; 3-6, a pin shaft; 3-7, a check ring; 3-8, a limiting block; 3-9, wave-shaped gasket; 3-10, a gasket; 3-1-1, outer disc; 3-1-2, inner disc; 3-4-1, a first gear tooth part; 3-4-2, a second gear tooth part; 15-1, a guide post; 15-2, a guide slide block; 15-3, a tension spring; 15-4, a tension spring hanging piece; 15-5 and a tension spring fixing plate.

Detailed Description

As shown in fig. 1, 2, 3 and 4, the utility model comprises a driver and a tensioner, wherein the driver comprises a driver shell, a driving motor and a speed reducer are arranged in the driver shell, and a damping rotating gear driving wheel is arranged on an output shaft of the speed reducer; the damping rotating gear driving wheel comprises a wheel disc 3-1, a plurality of fixed gear teeth 3-4 are uniformly arranged on the outer circumference of the wheel disc 3-1, movable gear teeth 3-5 are connected to the fixed gear teeth 3-4 through a pin shaft 3-6 in a shaft mode, a rotating damping device is arranged on the pin shaft 3-6 and provides rotating resistance for the movable gear teeth 3-5, and a check ring 3-7 used for limiting the rotating positions of the movable gear teeth 3-5 is arranged on the side face of the wheel disc 3-1.

As shown in fig. 5 and fig. 6, the rotary damping device can be the existing rotary damper with rotary damping function, the utility model discloses a simple structure's wave form gasket 3-9, the wave form gasket 3-9 cup joints on round pin axle 3-6, the wave form gasket 3-9 is located between fixed teeth of a cogwheel 3-4 and the movable teeth of a cogwheel 3-5. The fixed gear teeth 3-4, the movable gear teeth 3-5 and the wave-shaped gaskets 3-9 are fixedly connected together in a penetrating way through pin shafts 3-6, and elastic blocking pieces and gaskets 3-10 are arranged at two ends of the pin shafts 3-6. The surface of the wave-shaped gasket 3-9 is in a wave shape of up-and-down fluctuation, a counter bore is arranged on the inner side surface or the outer side surface of the movable gear tooth 3-5, and the wave-shaped gasket 3-9 is positioned in the counter bore. As shown in fig. 5, when the counter bore is located on the inner side surface of the movable gear tooth 3-5, the wave-shaped gasket 3-9 is simultaneously contacted with the fixed gear tooth 3-4 and the movable gear tooth 3-5, and the generated friction force is the damping force when the movable gear tooth 3-5 rotates; as shown in figure 6, when the counter bore is positioned on the outer side surface of the movable gear tooth 3-5, the wave-shaped gasket 3-9 is simultaneously contacted with the movable gear tooth and the gasket 3-10, the generated friction force is the damping force when the movable gear tooth 3-5 rotates, and the damping force can be adjusted by adjusting the quantity of the gasket 3-10 by adopting the structure.

The top of the fixed gear teeth 3-4 is provided with a steel cable groove, two sides of each fixed gear tooth 3-4 are respectively provided with a movable gear tooth 3-5, and the outer contour of each movable gear tooth 3-5 is larger than that of each fixed gear tooth 3-4.

The two sides of the wheel disc 3-1 are respectively provided with a retainer ring 3-7, the outer circumference of the retainer ring 3-7 is uniformly provided with a plurality of limit blocks 3-8, each limit block 3-8 corresponds to one movable gear tooth 3-5, the limit blocks 3-8 are positioned at one side of the inner circle of the movable gear tooth 3-5, when the movable gear tooth 3-5 rotates towards the direction provided with the limit blocks 3-8, the movable gear tooth 3-5 stops rotating after contacting with the limit blocks 3-8 due to the limiting action of the limit blocks 3-8, when the movable gear tooth 3-5 rotates towards the other direction, the movable gear tooth 3-5 stops rotating after contacting with the outer circle of the retainer ring 3-7, the movable gear tooth 3-5 can rotate in the range, thereby ensuring the complete meshing with the surface of the plug disc in the whole meshing process, the movable gear teeth 3-5 and the plug disc are always kept in surface contact, and the contact stress is reduced.

The wheel disc 3-1 can be an integrated wheel disc 3-1, or can be composed of two outer discs 3-1-1 and an inner disc 3-1-2 arranged between the two outer discs 3-1-1, the inner disc 3-1-2 is annular, a first wheel tooth part 3-4-1 and a second wheel tooth part 3-4-2 are uniformly distributed on the outer circumference of the outer disc 3-1-1 and the outer circumference of the inner disc 3-1-2 respectively, the second wheel tooth part 3-4-2 and the first wheel tooth parts 3-4-1 on two sides of the second wheel tooth part jointly form a fixed wheel tooth 3-4, an inclined plane is arranged on the inner side of the first wheel tooth part 3-4-1, and the top of the second wheel tooth part 3-4-2 and the two inclined planes on two sides of the second wheel tooth part jointly form a steel cable groove.

The center of the wheel disc 3-1 is provided with a shaft hole 3-2, and a hub ring 3-3 for connecting with a rotating shaft in a penetrating way is arranged on the shaft hole 3-2.

As shown in fig. 1 and 2, the driver housing 8 is divided into a front part and a rear part by a partition 7, the driving motor 5 and the speed reducer 6 are located behind the partition 7, the driving motor 5 is connected with the speed reducer 6 through a belt, an output shaft of the driving motor 5 penetrates through the partition 7, the damping rotating gear driving wheel 3 is located in front of the partition 7 and is installed on the output shaft of the driving motor 5, and a driven wheel 4 is arranged on one side of the damping rotating gear driving wheel 3 in front of the partition 7. Be provided with inlet pipe 9 in the front portion of driver shell 8, discharging pipe 10, direction discharging pipe 11, direction inlet pipe 12 and semicircle collecting pipe 13, inlet pipe 9 is located the one side of keeping away from driven wheel 4 with discharging pipe 10, direction discharging pipe 11 is located one side of driving wheel 4 place with direction inlet pipe 12, semicircle collecting pipe 13 is located the bottom of driver shell 8, and discharging pipe 10 is located the both ends of semicircle collecting pipe 13 respectively with direction inlet pipe 12, inlet pipe 9 is located the top of discharging pipe 10, direction discharging pipe 11 is located the top of direction inlet pipe 12.

As shown in fig. 1, 2 and 7, the tensioner 2 communicates with the drive 1 via a guided discharge pipe 11 and a guided feed pipe 12; the tensioner 2 comprises a tensioner support, a tensioner mechanism 15 is arranged in the tensioner support, a tensioner wheel 16 is arranged on the tensioner mechanism 15, and the tensioner wheel 16 moves left and right along with the tensioner mechanism 15.

The tension mechanism 15 comprises a guide column 15-1 horizontally arranged in a tension device support, a guide sliding block 15-2 is sleeved on the guide column 15-1, an upper tension spring 15-3 and a lower tension spring 15-3 are arranged on the guide sliding block 15-2, one end of each tension spring 15-3 is directly or indirectly connected with the guide sliding block 15-2, and the other end of each tension spring 15-3 is connected with one end of the tension device support far away from the driver 1. One end of a tension spring 15-3 can be directly fixed on the guide sliding block, or a tension spring hanging piece 15-4 can be arranged on one side of the guide sliding block 15-2 close to the driver 1, a tension spring fixing plate 15-5 is fixed on the tension bracket on the other side, the tension spring 15-3 penetrates through the guide sliding block 15-2, one ends of the two tension springs 15-3 are fixed on the tension spring fixing plate 15-5, the other end of the tension spring 15-3 is fixed on the tension spring fixing plate 15-5, and the tension spring 15-3 provides a tension force for the tension pulley 16 far away from the driver 1, so that the steel cable plug disc 17 on the tension pulley 16 is always in a tensioned state, and the steel cable plug disc 17 is prevented.

The utility model discloses constitute by driver 1 and tight ware 2 that rises, provide power for cable wire plug disc 17 by driver 1, thereby adjust the length variation of cable wire plug disc 17 when using through the tensile force of tight ware 2 that rises and adapt to cable wire plug disc 17, avoid the off tracking and the chain phenomenon of plug disc. The driving wheel adopts a damping rotating gear driving wheel 3, movable gear teeth 3-5 of the damping rotating gear driving wheel 3 can rotate around a pin shaft 3-6, when the damping rotating gear driving wheel 3 rotates, the plug disc is meshed with the movable gear teeth 3-5 one by one, the plug disc enables the movable gear teeth 3-5 to be stressed and rotate, and in the process that the plug disc runs to be separated from the damping rotating gear driving wheel 3, the movable gear teeth 3-5 can rotate in an adaptive mode, so that the gear teeth and the plug disc are always in a complete meshing state, the stress distribution condition of the plug disc is improved, and the abrasion and the damage of the plug disc are reduced. The steel cable plug disc 17 enters from a feeding pipe 9 above the driver 1, downwardly bypasses the damping rotating gear driving wheel 3, then upwardly bypasses the driven wheel 4, enters the tensioner 2 through the guide discharging pipe 11, bypasses the tensioner 16, returns to the driver 1 through the guide discharging pipe 11, and finally leaves the driver 1 from the discharging pipe 10.

The driver 1 and the tensioner 2 are split, and can be maintained or replaced independently, so that the maintenance cost is reduced, and the influence on feed transportation during maintenance is reduced. Through the trend that changes cable wire plug disc 17 from driving wheel 4, thereby the position of reasonable overall arrangement inlet pipe 9 and discharging pipe 10, inlet pipe 9 is vertical to be set up in the top of driver 1, cable wire plug disc 17 is vertical to enter into driver 1 from inlet pipe 9, the fodder of being convenient for to carry falls into semicircle collecting pipe 13, rotate the teeth of a cogwheel action wheel 3 and follow 4 back fodder of driving wheel through the damping and basically fall into semicircle collecting pipe 13 completely, cable wire plug disc 17 that does not carry the fodder basically enters into tensioner 2, be convenient for adjust its rate of tension. The steel cable plug disc 17 coming out of the tensioner 2 horizontally moves in the semicircular material collecting pipe 13 and finally leaves the driver 1 from the material discharging pipe 10, so that feed falling into the semicircular material collecting pipe 13 can be carried away to the maximum extent, and the driving of the steel cable plug disc 17 and the transportation of the feed are completed.

Claims (7)

1. A horizontal material conveying host applying a damping rotating gear tooth driving wheel is characterized by comprising a driver and a tensioner, wherein the driver comprises a driver shell, a driving motor and a speed reducer are arranged in the driver shell, and a damping rotating gear tooth driving wheel is arranged on an output shaft of the speed reducer; the damping rotation gear tooth driving wheel comprises a wheel disc, a plurality of fixed gear teeth are uniformly arranged on the outer circumference of the wheel disc, movable gear teeth are connected to the fixed gear teeth through a pin shaft, a rotation damping device is arranged on the pin shaft and provides rotation resistance for the movable gear teeth, and a check ring used for limiting the rotation position of the movable gear teeth is arranged on the side face of the wheel disc.

2. The horizontal material conveying main machine with the damping rotating gear tooth driving wheel as claimed in claim 1, wherein the rotating damping device is a wave-shaped gasket, the wave-shaped gasket is sleeved on the pin shaft, and the wave-shaped gasket is located on one side of the movable gear tooth.

3. The horizontal material conveying main machine with the damping rotating gear driving wheel as claimed in claim 1, wherein a steel cable groove is formed in the top of each fixed gear, one movable gear is respectively arranged on each of two sides of each fixed gear, and the outer contour of each movable gear is larger than that of each fixed gear.

4. The horizontal material conveying main machine with the damping rotating gear driving wheel as claimed in claim 1, wherein a plurality of limiting blocks are uniformly arranged on the outer circumference of the retainer ring, each limiting block corresponds to one movable gear tooth, and the limiting blocks are positioned on one side of the inner ring of the movable gear tooth.

5. The horizontal material conveying main machine with the damping rotating gear driving wheel as claimed in claim 1, wherein the driver housing is divided into a front part and a rear part by a partition plate, the driving motor and the speed reducer are located behind the partition plate, the damping rotating gear driving wheel is located in front of the partition plate, and a driven wheel is arranged on one side of the damping rotating gear driving wheel in front of the partition plate; the front portion of driver shell is provided with inlet pipe, discharging pipe, direction inlet pipe and semicircle collecting pipe, the inlet pipe is located with the discharging pipe and keeps away from one side from the driving wheel, the direction discharging pipe with the direction inlet pipe is located from driving wheel place one side, semicircle collecting pipe is located the bottom of driver shell, just the discharging pipe with the direction inlet pipe is located respectively the both ends of semicircle collecting pipe, the inlet pipe is located the top of discharging pipe, the direction discharging pipe is located the top of direction inlet pipe.

6. The horizontal material conveying main machine with the damping rotating gear driving wheel as claimed in claim 5, wherein the tensioner is communicated with the driver through the guide discharging pipe and the guide feeding pipe; the tensioner comprises a tensioner support, a tensioner mechanism is arranged in the tensioner support, a tensioner wheel is arranged on the tensioner mechanism, and the tensioner wheel moves left and right along with the tensioner mechanism.

7. The horizontal material conveying host machine with the damping rotating gear driving wheel as claimed in claim 6, wherein the tensioning mechanism comprises a guide post horizontally mounted in the tensioner bracket, a guide slider is sleeved on the guide post, a tension spring is arranged on the guide slider, one end of the tension spring is directly or indirectly connected with the guide slider, and the other end of the tension spring is connected with one end of the tensioner bracket, which is far away from the driver.

Images