CN218908594U - Jacking type roller conveying line - Google Patents

Abstract

The utility model relates to the technical field of conveying lines and discloses a jacking type roller conveying line, wherein telescopic ends of a lifting cylinder and a guide rod mechanism are fixedly connected with a conveying platform, a plurality of groups of supporting stand seats are arranged above a rack of the conveying platform at equal intervals along the conveying direction of the rack, top output ends of the plurality of groups of supporting stand seats are rotationally connected with a conveying roller, and two end output ends of a main transmission shaft and the conveying roller are synchronously connected through two groups of synchronous belts penetrating through the conveying platform. According to the utility model, the combination of the main transmission shaft and the auxiliary transmission shaft is used as a driving traction source, under the transfer transmission of the two groups of synchronous belts, the driving force can be synchronously transmitted to the output ends at the two ends of the transmission rollers, and then the multiple groups of transmission rollers are driven to carry out article transmission in a mode of uniformly stressed and synchronous transmission, so that the transmission accuracy is higher, meanwhile, the driving force born by the transmission of the traditional single-side transmission belt is reduced, and the long service life of the single-side transmission belt is ensured.

Description

Jacking type roller conveying line

Technical Field

The utility model relates to the technical field of conveying lines, in particular to a jacking roller conveying line.

Background

The roller conveying line is used as a conveying production line type, is suitable for conveying various boxes, bags, trays and other piece goods, and is used for conveying bulk materials, small piece goods or irregular articles on the trays or in the turnover boxes, and meanwhile, the roller conveying line can also be used for conveying materials with large weight in a single piece or bearing large impact load, and can be divided into a power roller line and an unpowered roller line, wherein the power roller line is used as a conveying line in an active conveying mode and is widely used in the industries of electronics, beverages, foods, packaging, machinery, electronics, light industry, tobacco, chemical industry, medicine, rubber and plastic, steam friction, logistics and the like, for example, the prior patent technology shows:

through retrieval, the Chinese patent network discloses a power roller conveying line (publication No. CN 216970851U), and the device utilizes motors to control the start and stop of each roller line respectively, so that the problems of collision, backlog and the like in the product conveying process are avoided, and the intelligent automatic conveying of products is realized. However, there are some disadvantages to the roller conveyor lines adopted in the above-mentioned published patents and the existing market: the motor is used for driving the unilateral conveyor belt to serve as a power source, and then the roller line is driven to rotate, so that the driving force born by the conveyor belt is large on one hand, the situation that the conveyor belt is easy to stretch out after long-term use is caused, and on the other hand, when the unilateral conveyor belt drives the rollers, the driving force of the unilateral conveyor belt cannot be stably transmitted to each group of rollers, and the situation that the conveyor belt slips is easy to occur.

Disclosure of Invention

The utility model aims to provide a jacking type roller conveying line, which solves the problems that in the prior art, a roller line is driven to rotate by using a single-side conveying belt as a power source, so that on one hand, the driving force born by the roller line is large, and the roller line is easy to stretch out after long-term use, and on the other hand, the driving force cannot be stably transmitted to each group of rollers, and the roller line is easy to slip.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a jacking type roller conveying line comprises an assembly frame, a conveying platform, a conveying roller and a lifting cylinder;

the assembly frame is of a U-shaped structure, two groups of lifting cylinders are symmetrically arranged at the middle positions of two sides of the interior of the U-shaped cavity, and four groups of guide rod mechanisms are symmetrically arranged on two sides of the interior of the U-shaped cavity;

the telescopic ends of the lifting cylinder and the guide rod mechanism are fixedly connected with the transmission platform;

a plurality of groups of supporting stand seats are arranged above the rack of the transmission platform at equal intervals along the transmission direction, and the top output ends of the plurality of groups of supporting stand seats are respectively and rotatably connected with a transmission roller;

the transmission platform is characterized in that a transmission box frame for driving the transmission roller to operate is arranged below a rack of the transmission platform, a main transmission shaft is connected in a rotating mode through the middle of the box frame of the transmission box frame and penetrates through a box body of the transmission box frame, and the main transmission shaft is connected with output ends of two ends of the transmission roller through two groups of synchronous belts penetrating through the transmission platform in a synchronous transmission mode.

As still further aspects of the utility model: two groups of lifting cylinders are right below the rack of the transmission platform and are positioned at the middle positions of two sides of the frame of the transmission platform, and four groups of guide rod mechanisms are right below the rack of the transmission platform and are positioned at the four corner end positions of the frame of the transmission platform.

As still further aspects of the utility model: the guide rod mechanism comprises a supporting sleeve arranged in the U-shaped cavity of the assembly frame, the supporting sleeve is fixedly connected with the assembly frame through a lower mounting seat arranged at the bottom end of a cylinder seat of the supporting sleeve, and the lifting sleeve rod is fixedly connected with the transmission platform through an upper mounting seat arranged at the top end of an arm rod of the lifting sleeve rod.

As still further aspects of the utility model: the transmission box comprises a box body, a main transmission shaft and a transmission gear, wherein the box body is internally provided with a transmission motor for driving the main transmission shaft to rotate, one end of a shaft lever of the main transmission shaft is provided with a synchronous gear, and the output end of the transmission motor is provided with a transmission gear meshed with the synchronous gear for transmission.

As still further aspects of the utility model: two groups of synchronous pulleys which are meshed with the two groups of synchronous belts for transmission are arranged in the support seat of the supporting vertical seat at the output ends of the two ends of the transmission roller;

two groups of driving belt wheels which are meshed with the two groups of synchronous belts for driving are arranged on the box body of the transmission box frame, wherein the output ends of the two ends of the main transmission shaft penetrate through the box body of the transmission box frame.

As still further aspects of the utility model: two groups of auxiliary transmission shafts are symmetrically arranged at the positions of the two ends in the box body of the transmission box frame and keep the same horizontal direction with the main transmission shaft, and two groups of traction belt wheels which are meshed with the two groups of synchronous belts for transmission are arranged at the output ends of the two groups of auxiliary transmission shafts penetrating through the box body of the transmission box frame.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the combination of the main transmission shaft and the auxiliary transmission shaft is used as a driving traction source, under the transfer transmission of the two groups of synchronous belts, the driving force can be synchronously transmitted to the output ends at the two ends of the transmission rollers, and then the multiple groups of transmission rollers are driven to carry out article transmission in a manner of uniformly stressed and synchronous transmission.

2. When the utility model utilizes the transmission roller to carry out production and conveying work, the transmission height direction of the transmission roller can be flexibly aligned and adjusted through the combination of the guide rod mechanism and the lifting cylinder which are arranged below the transmission platform, so that the roller conveying line is suitable for different workplaces, and the flexible adaptability of the roller conveying line is improved.

Drawings

FIG. 1 is a schematic diagram of a jacking roller conveyor line;

FIG. 2 is a schematic view of the internal structure of a jacking roller conveyor line;

FIG. 3 is a schematic view of the structure of a transfer drum in a jacking type drum conveyor line;

fig. 4 is a schematic structural view of a guide rod mechanism in a jacking roller conveyor line.

In the figure: 1. assembling a frame; 2. a guide rod mechanism; 21. a lower mounting seat; 22. a support sleeve; 23. lifting the loop bar; 24. an upper mounting seat; 3. a transmission platform; 4. a supporting vertical seat; 5. a transfer drum; 6. a transmission case frame; 7. a synchronous belt; 8. a traction belt wheel; 9. a transmission belt wheel; 10. a synchronous pulley; 11. an auxiliary transmission shaft; 12. a main drive shaft; 13. a synchronizing gear; 14. a transmission gear; 15. a drive motor; 16. lifting cylinder.

Detailed Description

Referring to fig. 1 to 4, in an embodiment of the present utility model, a jacking roller conveyor line includes an assembly frame 1, a transmission platform 3, a transmission roller 5, and a lifting cylinder 16;

the assembly frame 1 is of a U-shaped structure, two groups of lifting cylinders 16 are symmetrically arranged at the middle positions of two sides of the interior of the U-shaped cavity, and four groups of guide rod mechanisms 2 are symmetrically arranged on two sides of the interior of the U-shaped cavity, which are positioned on the two groups of lifting cylinders 16;

the lifting cylinder 16 and the telescopic end of the guide rod mechanism 2 are fixedly connected with the transmission platform 3;

a plurality of groups of supporting stand seats 4 are arranged above the rack of the transmission platform 3 at equal intervals along the transmission direction, and the top output ends of the plurality of groups of supporting stand seats 4 are respectively and rotatably connected with a transmission roller 5;

a transmission box frame 6 for driving the transmission roller 5 to run is arranged below the rack of the transmission platform 3, the middle part of the box frame of the transmission box frame 6 is connected with a main transmission shaft 12 in a rotating way through a box body of the transmission box frame, and the main transmission shaft 12 is synchronously connected with the output ends of the two ends of the transmission roller 5 through two groups of synchronous belts 7 penetrating through the transmission platform 3.

The two groups of lifting cylinders 16 are opposite to the lower part of the rack of the transmission platform 3 and are positioned at the middle parts of the two sides of the frame, the four groups of guide rod mechanisms 2 are opposite to the lower part of the rack of the transmission platform 3 and are positioned at the four corner end positions of the frame, when the roller transmission line is used for production and conveying work, the height and the direction of the transmission roller 5 of the roller transmission line are adjusted according to the on-site production environment so as to be matched with the on-site environment, then in the adjustment process, the four groups of guide rod mechanisms 2 are used for vertically supporting and guiding the transmission platform 3, the telescopic ends of the lifting cylinders 16 extend out to push the transmission platform 3 to be lifted upwards, and the transmission roller 5 is lifted to the designated height and direction to be matched with the on-site production environment.

The guide rod mechanism 2 comprises a supporting sleeve 22 arranged in the U-shaped cavity of the assembly frame 1, the supporting sleeve 22 is fixedly connected with the assembly frame 1 through a lower mounting seat 21 arranged at the bottom end of a cylinder seat of the supporting sleeve 22, a lifting sleeve rod 23 is embedded and clamped at the top cylinder opening of the supporting sleeve 22, the lifting sleeve rod 23 is fixedly connected with the transmission platform 3 through an upper mounting seat 24 arranged at the top end of an arm rod of the supporting sleeve rod, and in the height and direction adjusting process of a roller transmission line, when the lifting cylinder 16 pushes the transmission platform 3 to lift and displace, the supporting sleeve 22 and the lifting sleeve rod 23 in the guide rod mechanism 2 are combined, and can synchronously stretch and retract along with the lifting and displacement of the transmission platform 3, so that the guide rod mechanism 2 is integrally and vertically guided to the transmission platform 3 all the time, and the situation that the transmission platform 3 tilts and overturns due to overlarge side pressure is avoided.

The box body of the transmission box frame 6 is internally provided with a transmission motor 15 for driving the main transmission shaft 12 to rotate, one end of a shaft lever of the main transmission shaft 12 is provided with a synchronous gear 13, the output end of the transmission motor 15 is provided with a transmission gear 14 meshed with the synchronous gear 13 for transmission, when a roller transmission line is used for conveying articles, the transmission motor 15 starts to work, the transmission gear 14 is driven to rotate, the main transmission shaft 12 is driven to rotate through the meshed transmission of the transmission gear 14 and the synchronous gear 13, so that the main transmission shaft 12 is used as a power source to drive corresponding equipment to operate.

The output ends of the two ends of the transmission roller 5 are just provided with two groups of synchronous pulleys 10 which are meshed with the two groups of synchronous belts 7 for transmission in the support of the supporting stand 4, the box body of the transmission box frame 6, which is penetrated by the output ends of the main transmission shaft 12, is provided with two groups of transmission pulleys 9 which are meshed with the two groups of synchronous belts 7 for transmission, and when the transmission line of the roller is utilized for conveying articles, the main transmission shaft 12 rotates, simultaneously drives the two groups of transmission pulleys 9 of the output ends of the main transmission shaft to rotate, and then drives the two groups of synchronous pulleys 10 of the output ends of the two ends of the transmission roller 5 to rotate through the tooth meshing transmission of the two groups of synchronous belts 7, so as to drive the corresponding groups of transmission rollers 5 to synchronously rotate, and the articles placed on the transmission roller 5 are subjected to active conveying work.

Two groups of auxiliary transmission shafts 11 are symmetrically arranged at the positions of the two ends in the box body of the transmission box frame 6 and keep the same horizontal direction with the main transmission shaft 12, two groups of traction pulleys 8 which are meshed with the two groups of synchronous belts 7 are arranged at the two output ends of the two groups of auxiliary transmission shafts 11 penetrating through the box body of the transmission box frame 6, the two groups of synchronous belts 7 are used as power sources to drive the multiple groups of transmission rollers 5 to synchronously rotate, and meanwhile, the two groups of traction pulleys 8 at the output ends of the two ends of the auxiliary transmission shafts 11 are used for guiding the traction of the two groups of synchronous belts 7, so that the synchronous belts 7 can keep proper tension, and keep accurate meshed transmission with the synchronous pulleys 10 and the transmission pulleys 9, and the accuracy and the stability of the integral transmission of the multiple groups of transmission rollers 5 are improved.

The working principle of the utility model is as follows: when the roller transmission line is utilized to carry out production and conveying work, the height direction of the transmission roller 5 of the roller transmission line is adjusted according to the field production environment, the transmission roller 5 is matched with the field environment, then in the adjustment process, the vertical support and the guide of the transmission platform 3 are utilized by the four groups of guide rod mechanisms 2, the telescopic ends of the lifting cylinder 16 extend out, the transmission platform 3 is pushed to lift upwards, the transmission roller 5 is lifted to the designated height direction and is matched with the field production environment, further when the roller transmission line is utilized to carry out the conveying work of objects, the transmission motor 15 starts to work, the transmission gear 14 is driven to rotate, the main transmission shaft 12 is driven to rotate through the meshing transmission of the transmission gear 13, the main transmission shaft 12 is driven to serve as a power source, the corresponding equipment is driven to operate, and the main transmission shaft 12 is driven to rotate, then the two groups of transmission pulleys 9 at the two ends of the main transmission shaft 12 are driven to rotate, the two groups of synchronous pulleys 10 at the two ends of the transmission roller 5 are driven to rotate through tooth meshing transmission of the two groups of synchronous belts 7, the corresponding groups of transmission roller 5 are driven to synchronously rotate, the objects placed on the transmission roller 5 are driven to carry out active conveying work, the objects on the transmission work when the two groups of synchronous belts 7 serve as the driving force sources are evenly, the two ends of the single-side transmission belt 5 are driven to bear the driving force of the two ends of the object transmission roller 5, the object is well, and the stress transmission mode is guaranteed to be well, and the stress can be well, and the transmission life of the transmission mode is ensured, and the quality can be well, and long.

The foregoing description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical solution of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The jacking type roller conveying line is characterized by comprising an assembly frame (1), a conveying platform (3), a conveying roller (5) and a lifting cylinder (16);

the assembly frame (1) is of a U-shaped structure, two groups of lifting cylinders (16) are symmetrically arranged in the middle of two sides of the U-shaped cavity, and four groups of guide rod mechanisms (2) are symmetrically arranged on two sides of the U-shaped cavity in a two-to-two symmetrical mode;

the lifting cylinder (16) and the telescopic end of the guide rod mechanism (2) are fixedly connected with the transmission platform (3);

a plurality of groups of supporting stand seats (4) are arranged above the bench of the transmission platform (3) at equal intervals along the transmission direction, and the top output ends of the plurality of groups of supporting stand seats (4) are respectively and rotatably connected with a transmission roller (5);

the transmission platform is characterized in that a transmission box frame (6) for driving the transmission roller (5) to operate is arranged below a bench of the transmission platform (3), a main transmission shaft (12) is rotatably connected in the middle of the box frame of the transmission box frame (6) and penetrates through a box body of the transmission box frame, and the main transmission shaft (12) is synchronously in transmission connection with two output ends of two ends of the transmission roller (5) through two groups of synchronous belts (7) penetrating through the transmission platform (3).

2. A jacking roller conveyor line according to claim 1, characterized in that two sets of said lifting cylinders (16) are facing under the rack of the conveyor platform (3) at the middle positions of the two sides of the frame thereof, and four sets of guide bar mechanisms (2) are facing under the rack of the conveyor platform (3) at the four corner end positions of the frame thereof.

3. A jacking roller conveyor line according to claim 1, characterized in that the guide rod mechanism (2) comprises a support sleeve (22) mounted inside the U-shaped chamber of the assembly frame (1), the support sleeve (22) is fixedly connected with the assembly frame (1) through a lower mounting seat (21) mounted at the bottom end of a cylinder seat, a lifting sleeve rod (23) is embedded and clamped at the top cylinder opening of the support sleeve (22), and the lifting sleeve rod (23) is fixedly connected with the conveying platform (3) through an upper mounting seat (24) mounted at the top end of an arm rod.

4. A jacking roller conveyor line according to claim 1, characterized in that a transmission motor (15) for driving the main transmission shaft (12) to rotate is installed in the box body of the transmission box frame (6), a synchronizing gear (13) is arranged at one end of a shaft lever of the main transmission shaft (12), and a transmission gear (14) meshed with the synchronizing gear (13) is arranged at the output end of the transmission motor (15).

5. A jacking type roller conveyor line according to claim 1, characterized in that two groups of synchronous pulleys (10) which are in meshed transmission with two groups of synchronous belts (7) are arranged in the support of the two ends of the conveying roller (5) right opposite to the supporting stand (4);

two groups of driving belt wheels (9) which are meshed with the two groups of synchronous belts (7) for driving are arranged on the box body of the main driving shaft (12) with the output ends penetrating through the driving box frame (6).

6. A jacking roller conveyor line according to claim 1, characterized in that two sets of auxiliary transmission shafts (11) are symmetrically arranged at two end positions in the box body of the transmission box frame (6) and keep the same horizontal direction with the main transmission shaft (12), and two sets of traction pulleys (8) which are meshed with two sets of synchronous belts (7) are arranged at two end output ends of the two sets of auxiliary transmission shafts (11) penetrating through the box body of the transmission box frame (6).

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