CN215158170U - Modularization belt feeder - Google Patents

Abstract

The utility model relates to a modular belt conveyor, which comprises a belt, an input system, a plurality of intermediate systems and an output system, wherein the input system comprises an input support, a driven roller and two tensioning devices, the two tensioning devices are all arranged on the input support, the two tensioning devices are all horizontally adjusted along the input support, the driven roller is rotatably arranged between the two tensioning devices, the output system comprises an output support, an adjustable support and a transmission power device, the adjustable support is provided with a plurality of mounting holes, the transmission power device is arranged on the adjustable support through corresponding mounting holes, the belt bypasses the driven roller and the transmission power device, each intermediate system is sequentially arranged between the input support and the output support for supporting the belt, and the adjacent intermediate systems are connected through high-strength bolts, can meet the transmission requirements of different distances.

Description

Modularization belt feeder

Technical Field

The utility model relates to a belt feeder technical field especially relates to a modularization belt feeder.

Background

The belt feeder because the reason in place, often need use different length, design at every turn all will change, and is more troublesome, and current belt feeder is mostly holistic frame, and if holistic frame has the change demand subsequently, also very troublesome can not adapt to the use scene of multiple length demand.

SUMMERY OF THE UTILITY MODEL

For the technical defect who overcomes prior art existence, the utility model provides a modularization belt feeder can be according to the conveying demand adjustment belt feeder length of different distances.

The utility model discloses a technical solution be:

modularization belt feeder, including belt, input system, a plurality of intermediate system and output system, the input system includes input support and driven roller, rotatable the installing on the input support of driven roller, output system includes output support and conveying power device, conveying power device installs on the output support, driven roller and conveying power device are walked around to the belt, each the intermediate system is installed in proper order and is used for bearing belt between input support and the output support, and is adjacent through high strength bolted connection between the intermediate system.

As a further improvement, the input system still includes aggregate bin device, a plurality of input bearing subassembly, a plurality of input bearing roller and a plurality of input direction subassembly, aggregate bin device installs in the belt top and has seted up the aggregate bin export in the belt top, each input bearing subassembly and each input bearing roller all install in proper order on the input support along belt direction of delivery, input bearing subassembly holds the belt of being carried to the intermediate system direction by driven roller, each input bearing roller holds the belt of carrying from the intermediate system to the driven roller direction, each input direction subassembly is installed keeping away from driven roller one side and all rotatable belt side of pushing down of aggregate bin device.

As a further improvement of the utility model, the collecting hopper device is including the frame that gathers materials, the collecting hopper body and two material collecting medium plates, the frame that gathers materials is adorned admittedly on the input support, the collecting hopper body is installed in the frame that gathers materials, collecting hopper body bottom has been seted up the collecting hopper export for V-arrangement and collecting hopper body bottom, two the material is concentrated the board and is installed in collecting hopper export both sides, two the width adjustment slot hole of directional collecting hopper export is all seted up to material collection medium plate, two the width that material collection medium plate passes through width adjustment slot hole change mounted position and then change the collecting hopper export.

As a further improvement of the utility model, each input bearing subassembly includes bearing crossbeam, a plurality of intermediate column and two side stands, the bearing crossbeam is adorned admittedly on the input support, each the equal vertical an organic whole of intermediate column and two side stands is established on the bearing crossbeam, each install horizontal roller, each between the intermediate column the belt that the horizontal roller bearing was carried by driven roller to the intermediate system direction, two the side stand is installed at the both ends of bearing crossbeam, two the side stand all is higher than the intermediate column, each equal rotatable inclination roller of installing between side stand and the adjacent intermediate column.

As a further improvement of the utility model, the input system still includes two overspeed device tensioner, each overspeed device tensioner all includes tensioning slider, tensioning screw rod and tensioning nut, the tensioning slider includes two parallel arrangement horizontal slide rail on the input support, the tensioning slider is installed between two horizontal slide rails and the tensioning slider slides along two horizontal slide rails, the rotatable installation of driven roller is between two tensioning sliders, the tensioning screw rod level is adorned admittedly on the tensioning slider, through vice connection of screw thread between tensioning nut and the tensioning screw rod, two be equipped with the benchmark board admittedly between the horizontal slide rail, the tensioning screw rod passes the benchmark board, the benchmark board is pushed down to the tensioning nut.

As a further improvement, the intermediate system includes intermediate support, a plurality of intermediate support roller and a plurality of intermediate bearing subassembly, and is adjacent the high strength bolted connection is passed through at the intermediate support both ends, intermediate bearing unit mount is on the intermediate support and the belt that the bearing was carried to the intermediate system direction by driven roller, each the intermediate support roller is installed on the intermediate support and the bearing is lived from the intermediate system to the belt that the driven roller direction was carried, the intermediate support all passes through high strength bolted connection with adjacent input support and output support.

As a further improvement of the utility model, output system is still including installing the adjustable support on the output support, adjustable support is equipped with a plurality of mounting holes, conveying power device installs on adjustable support through corresponding the mounting hole, conveying power device includes drive machine and initiative roller, drive machine adorns admittedly on the mounting hole, and the rotatable installation of initiative roller is on the output support, the initiative roller is connected in the drive of drive machine, the initiative roller is walked around to the belt.

As a further improvement, the end of the output system is provided with a holding hopper and a holding material plate component, the end of the output system is provided with the holding hopper, and the holding material plate component is arranged in the holding hopper and is connected with the driving roller by the holding material plate component.

As a further improvement, hold together the flitch subassembly and include that rotatable the installing holds together flitch, swing pull rod and swing connecting rod on holding together the hopper, the swing connecting rod is adorned admittedly on holding together the flitch, swing pull rod one end articulates on the swing connecting rod and swing connecting rod other end eccentric articulates on the initiative roller.

The utility model has the advantages that:

the input system comprises an input support, a driven roller and two tensioning devices, wherein the two tensioning devices are arranged on the input support, the two tensioning devices are horizontally adjusted along the input support, the driven roller is rotatably arranged between the two tensioning devices, each intermediate system is sequentially arranged between the input support and the output support to support a belt, two ends of each adjacent intermediate system are connected through high-strength bolts, the intermediate systems are connected with the adjacent input support and the adjacent output support through the high-strength bolts, the number of the intermediate systems is determined according to the requirement of conveying length, the output system comprises an output support, an adjustable support and a conveying power device, the adjustable support is provided with a plurality of mounting holes, the conveying power device is arranged on the adjustable support through corresponding mounting holes, the conveying power device comprises a transmission motor and a driving roller, the transmission motor is fixedly arranged on the mounting holes, the rotatable installation of initiative roller is on the output support, the initiative roller is connected in the transmission of drive motor, the initiative roller is walked around to the belt, the transmission motor traction belt of different power is chooseed for use according to power needs, a plurality of mounting holes are seted up at adjustable support top in order to adapt to different power transmission motor's installation needs, driven roller and conveying power device are walked around to the belt, each intermediate system assembles the back, the belt needs bond according to the actual distance between driven roller and the conveying power device, can be according to the conveying demand adjustment belt feeder length of different distances, overspeed device tensioner is used for finely tuning the distance between conveying power device and the driven roller, guarantee the belt tensioning.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the structure of the present invention with an intermediate system.

Fig. 3 is a schematic structural diagram of the present invention with two intermediate systems.

Fig. 4 is an enlarged schematic view of a portion a in fig. 3.

Fig. 5 is a schematic diagram of an input system.

Fig. 6 is an enlarged schematic view of B in fig. 5.

Fig. 7 is a schematic diagram of an intermediate system architecture.

Figure 8 is a schematic view of an input bolster assembly configuration.

Fig. 9 is a schematic diagram of an output system.

Description of reference numerals:

1. a belt;

2. an input system; 21. an input bracket; 22. a driven roller; 23. a tensioning device; 231. tensioning the slide block; 232. tensioning the screw; 233. tensioning the nut; 234. a horizontal slide rail; 235. a reference plate; 24. a collection hopper device; 241. an aggregate frame; 242. a hopper body; 243. a material collection medium plate; 244. an outlet of the collection hopper; 25. an input holding assembly; 251. supporting the beam; 252. a middle upright post; 253. a side column; 254. a horizontal roll; 255. an inclination roller; 26. an input carrier roller; 27. an input guide assembly;

3. an intermediate system; 31. a middle support; 311. a high strength bolt; 32. an intermediate belt supporting roller; 33. a central support assembly;

4. an output system; 41. an output support; 42. an adjustable support; 43. a power transmission device; 431. a drive motor; 432. an active roller; 44. collecting a hopper; 45. a material collecting plate assembly; 451. a material collecting plate; 452. a swing pull rod; 453. a swing link;

5. aligning the component; 51. a first universal bearing; 52. a second universal bearing; 53. aligning the nut; 54. is aligned with the screw.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1-9, this embodiment provides a modular belt conveyor, which includes a belt 1, an input system 2, a plurality of intermediate systems 3, a plurality of alignment assemblies 5 and an output system 4, where the input system 2 includes an input support 21, a driven roller 22 and two tensioning devices 23, the two tensioning devices 23 are both mounted on the input support 21, the two tensioning devices 23 are both horizontally adjusted along the input support 21, the driven roller 22 is rotatably mounted between the two tensioning devices 23, each intermediate system 3 is sequentially mounted between the input system 2 and the output system 4 in turn for supporting the belt 1, the number of intermediate systems 3 is determined according to the conveying length requirement, the output system 4 includes an output support 41, an adjustable support 42 and a conveying power device 43, the adjustable support 42 is provided with a plurality of mounting holes, the conveying power device 43 is mounted on the adjustable support 42 through corresponding mounting holes, the transmission power device 43 comprises a transmission motor 431 and a driving roller 432, the transmission motor 431 is fixedly arranged on a mounting hole, the driving roller 432 is rotatably arranged on the output support 41, the transmission motor 431 is in transmission connection with the driving roller 432, the belt 1 bypasses the driving roller 432, the transmission motor 431 with different powers is selected according to power requirements to pull the belt 1, a plurality of mounting holes are formed in the top of the adjustable support 42 to adapt to the mounting requirements of the transmission motors 431 with different powers, the belt 1 bypasses the driven roller 22 and the transmission power device 43, after the intermediate systems 3 are assembled, the belt 1 needs to be bonded according to the actual distance between the driven roller 22 and the driving roller 432, the tensioning device 23 is used for finely adjusting the distance between the driving roller 432 and the driven roller 22, and tensioning of the belt 1 is guaranteed.

In this embodiment, the input system 2 further includes a collecting hopper device 24, a plurality of input supporting components 25, a plurality of input supporting rollers 26 and a plurality of input guiding components 27, the collecting hopper device 24 is installed above the belt 1 and has a collecting hopper outlet 244 above the belt 1, the material is dumped into the collecting hopper device 24 and falls from the collecting hopper outlet 244, the collecting hopper outlet 244 is used for collecting the material and ensures that the material falls above the belt 1, each input supporting component 25 and each input supporting roller 26 are sequentially installed on the input support 21 along the conveying direction of the belt 1, the input supporting component 25 supports the belt 1 conveyed from the driven roller 22 to the intermediate system 3, each input supporting roller 26 supports the belt 1 conveyed from the intermediate system 3 to the driven roller 22, each input guiding component 27 is installed on one side of the collecting hopper device 24 far from the driven roller 22 and presses the side of the belt 1, the input guide assembly 27 restricts lateral movement of the belt 1 and prevents the belt 1 from disengaging the input carrier roller 26.

In this embodiment, the collecting hopper device 24 includes a collecting hopper frame 241, a collecting hopper body 242 and two material collecting plates 243, the collecting hopper frame 241 is fixed on the input support 21, the collecting hopper body 242 is installed on the collecting hopper frame 241, the bottom of the collecting hopper body 242 is V-shaped, the bottom of the collecting hopper body 242 is provided with a collecting hopper outlet 244, the two material collecting plates 243 are installed on both sides of the collecting hopper outlet 244, the two material collecting plates 243 are both provided with a width adjusting long hole pointing to the collecting hopper outlet 244, the two material collecting plates 243 change the installation position through the width adjusting long holes to change the width of the collecting hopper outlet 244, the material enters the collecting hopper body 242 from above the collecting hopper body 242 and falls into the belt 1 from the collecting hopper outlet 244 along the V-shaped bottom of the collecting hopper body 242, the material is gradually collected by the bottom of the collecting hopper body 242 when passing through the bottom of the collecting hopper body 242, the material collecting plates 243 are adjusted downward to reduce the width of the collecting hopper outlet 244 through the material adjusting long holes, the material is more concentrated, and the passing capacity of the collecting hopper outlet 244 is reduced; on the contrary, the material collecting plate 243 is adjusted upwards through the material adjusting long holes to enlarge the width of the collecting hopper outlet 244, so that the materials are dispersed more, and the passing capacity of the collecting hopper outlet 244 is increased, generally speaking, the more the intermediate system 3 is assembled, the belt 1 is also lengthened, the heavier the materials carried on the belt 1 are, in order to enable the transmission motor 431 to work normally, the material collecting plate 243 is adjusted downwards to restrain the passing capacity of the material collecting plate 243, and the overload of the transmission motor 431 caused by the overhigh weight of the materials on the belt 1 is avoided, of course, under the condition that the power of the transmission motor 431 is sufficient, the material collecting plate 243 is adjusted upwards to enlarge the passing capacity of the collecting hopper outlet 244, and the conveying capacity of the belt 1 can be increased.

In this embodiment, each input bearer assembly 25 comprises a bearer beam 251, a plurality of middle columns 252 and two side columns 253, the bearer beam 251 is fixedly mounted on the input support 21, each middle column 252 and each side column 253 are vertically and integrally arranged on the bearer beam 251, a horizontal roller 254 is mounted between each middle column 252, each horizontal roller 254 bears the belt 1 conveyed towards the middle system 3 by the driven roller 22, the two side columns 253 are mounted at two ends of the bearer beam 251, each side column 253 is higher than the middle column 252, an inclined roller 255 is rotatably mounted between each side column 253 and the adjacent middle column 252, the inclined roller 255 turns over the side edge of the belt 1 upwards, the material on the belt 1 is concentrated in the middle area of the belt 1, the material is prevented from falling from the belt 1, and because the inclined roller 255 has an inclined angle, the belt 1 slides downwards along the inclined roller 255 under the action of gravity if inclined, the inclination roller 255 has a function of correcting the position of the belt 1 to prevent the belt 1 from being deviated.

In this embodiment, each tensioning device 23 includes a tensioning slider 231, a tensioning screw 232, and a tensioning nut 233, the tensioning slider 231 includes two horizontal slide rails 234 disposed in parallel on the input bracket 21, the tensioning slider 231 is mounted between the two horizontal slide rails 234, the tensioning slider 231 slides along the two horizontal slide rails 234, the driven roller 22 is rotatably mounted between the two tensioning sliders 231, the tensioning screw 232 is horizontally fixed on the tensioning slider 231, the tensioning nut 233 and the tensioning screw 232 are connected by a thread pair, a reference plate 235 is fixed between the two horizontal slide rails 234, the tensioning screw 232 passes through the reference plate 235, and the tensioning nut 233 presses the reference plate 235.

In this embodiment, the intermediate system 3 includes an intermediate frame 31, a plurality of intermediate belt supporting rollers 32 and a plurality of intermediate supporting members 33, adjacent intermediate frames 31 are connected by high strength bolts 311, the intermediate supporting members 33 are mounted on the intermediate frame 31 and support the belt 1 conveyed from the driven roller 22 to the intermediate system 3, each intermediate belt supporting roller 32 is mounted on the intermediate frame 31 and supports the belt 1 conveyed from the intermediate system 3 to the driven roller 22, the intermediate frame 31 and adjacent input and output frames 21 and 41 are connected by high strength bolts 311, adjacent intermediate frames 31 are connected by an aligning member 5, the aligning member 5 includes a first upright, a first universal bearing 51, a second upright, a second universal bearing 52, an aligning nut 53 and an aligning screw 54, the first universal bearing 51 is mounted on the first upright, the second universal bearing 52 is mounted on the second upright, an alignment nut 53 is fixedly arranged in the second universal bearing 52, and an alignment screw 54 passes through the first universal bearing 51 and is matched with the alignment nut 53 through a thread pair;

the adjacent ends of the adjacent middle brackets 31 are respectively fixedly provided with a first upright post and a second upright post, the adjacent ends of the input bracket 21 and the adjacent middle brackets 31 are respectively fixedly provided with a first upright post and a second upright post, the adjacent ends of the output bracket 41 and the adjacent middle brackets 31 are respectively fixedly provided with a first upright post and a second upright post, the first upright post is provided with a tapered groove, the second upright post is provided with a guide cone matched with the first upright post, when the two adjacent middle brackets 31 are spliced, the aligning screw 54 firstly passes through the first universal bearing 51 and is in threaded connection with the aligning nut 53, the aligning screw 54 is rotated to pull the second upright post to be close to the first upright post, because the aligning screw 54 passes through the first universal bearing 51 and the second universal bearing 52, the aligning screw 54 can adapt to different positions of the first upright post and the second upright post, the aligning screw 54 pulls the first upright post and the second upright post to be close to each other, when the adjacent middle brackets 31 are to be butted, the guide cone is embedded into the tapered groove, at this time, the alignment screw 54 is rotated again to force the adjacent middle support 31 to be aligned, the adjacent middle support 31 can be automatically aligned by rotating the alignment screw 54, the installation is convenient, the adjacent middle support 31 is rigidly installed by using the high-strength bolt 311 to complete the splicing of the middle support 31, the alignment method of the middle support 31 and the adjacent output support 41 is the same as that of the middle support 31, and is not described herein again, and the alignment method of the middle support 31 and the adjacent input support 21 is the same as that of the middle support 31 and the adjacent input support 21, and is not described herein again.

The end of the output system 4 is provided with a material collecting hopper 44 and a material collecting plate assembly 45, the material collecting hopper 44 is arranged at the end of the output system 4, the material collecting plate assembly 45 is arranged in the material collecting hopper 44, and the material collecting plate assembly 45 is in transmission connection with the driving roller 432, the material collecting plate assembly 45 comprises a material collecting plate 451 rotatably arranged on the material collecting hopper 44, a swing pull rod 452 and a swing connecting rod 453, the swing connecting rod 453 is fixedly arranged on the material collecting plate 451, one end of the swing pull rod 452 is hinged on the swing connecting rod 453, the other end of the swing connecting rod 453 is eccentrically hinged on the driving roller 432, the driving motor 431 drives the driving roller 432 to rotate, the driving roller 432 drives the swing pull rod 452 to move in a rotating mode, the swing connecting rod 453 is driven by the swing pull rod 452 to swing so that the material collecting plate 451 swings, and the material falling from the belt 1 is scattered by the material collecting plate 451.

Having shown and described the basic principles and essential features of the invention and its advantages, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but is susceptible to various changes and modifications without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (9)

1. Modularization belt feeder, its characterized in that, including belt, input system, a plurality of intermediate system and output system, the input system includes input support and driven roller, rotatable the installing on the input support of driven roller, output system includes output support and conveying power device, conveying power device installs on the output support, driven roller and conveying power device are walked around to the belt, each the intermediate system is installed in proper order and is used for bearing belt between input support and the output support, and is adjacent through high strength bolted connection between the intermediate system.

2. The modular belt conveyor of claim 1, wherein the input system further comprises a hopper collecting device, a plurality of input bearing components, a plurality of input belt supporting rollers and a plurality of input guiding components, the hopper collecting device is installed above the belt and provided with a hopper collecting outlet above the belt, each input bearing component and each input belt supporting roller are sequentially installed on the input support along the conveying direction of the belt, the input bearing components bear the belt conveyed from the driven roller to the direction of the intermediate system, each input belt supporting roller bears the belt conveyed from the intermediate system to the direction of the driven roller, and each input guiding component is installed on one side, far away from the driven roller, of the hopper collecting device and presses the side edge of the belt in a rotatable manner.

3. The modular belt conveyor of claim 2, wherein the collecting hopper device comprises a collecting rack, a collecting hopper body and two material collecting plates, the collecting rack is fixedly arranged on the input support, the collecting hopper body is arranged on the collecting rack, the bottom of the collecting hopper body is V-shaped, a collecting hopper outlet is formed in the bottom of the collecting hopper body, the two material collecting plates are arranged on two sides of the collecting hopper outlet, the two material collecting plates are both provided with width adjusting long holes pointing to the collecting hopper outlet, and the two material collecting plates change the installation position through the width adjusting long holes so as to change the width of the collecting hopper outlet.

4. The modular belt conveyor of claim 2, wherein each input bearing assembly comprises a bearing cross beam, a plurality of middle vertical columns and two side vertical columns, the bearing cross beam is fixedly mounted on the input support, each middle vertical column and each side vertical column are vertically and integrally arranged on the bearing cross beam, a horizontal roller is mounted between the middle vertical columns, each horizontal roller bears a belt conveyed from a driven roller to a middle system direction, the two side vertical columns are mounted at two ends of the bearing cross beam, the two side vertical columns are higher than the middle vertical columns, and an inclination angle roller is rotatably mounted between each side vertical column and the adjacent middle vertical column.

5. The modular belt conveyor of claim 1, wherein the input system further comprises two tensioning devices, each tensioning device comprises a tensioning slide block, a tensioning screw and a tensioning nut, the tensioning slide block comprises two horizontal slide rails arranged on the input support in parallel, the tensioning slide block is installed between the two horizontal slide rails and slides along the two horizontal slide rails, the driven roller is rotatably installed between the two tensioning slide blocks, the tensioning screw is horizontally and fixedly installed on the tensioning slide block, the tensioning nut and the tensioning screw are connected through a thread pair, a reference plate is fixedly installed between the two horizontal slide rails, the tensioning screw penetrates through the reference plate, and the tensioning nut presses the reference plate.

6. The modular belt conveyor of claim 1, wherein the intermediate system comprises an intermediate support, a plurality of intermediate belt supporting rollers and a plurality of intermediate supporting components, two ends of the adjacent intermediate support are connected through high-strength bolts, the intermediate supporting components are installed on the intermediate support and support a belt conveyed from the driven roller to the intermediate system, each intermediate belt supporting roller is installed on the intermediate support and support a belt conveyed from the intermediate system to the driven roller, and the intermediate support is connected with the adjacent input support and the output support through high-strength bolts.

7. The modular belt conveyor of claim 1, wherein the output system further comprises an adjustable bracket mounted on the output bracket, the adjustable bracket is provided with a plurality of mounting holes, the conveying power device is mounted on the adjustable bracket through corresponding mounting holes, the conveying power device comprises a transmission motor and a driving roller, the transmission motor is fixedly mounted on the mounting holes, the driving roller is rotatably mounted on the output bracket, the transmission motor is in transmission connection with the driving roller, and the belt bypasses the driving roller.

8. The modular belt conveyor of claim 7, wherein a material collecting hopper and a material collecting plate assembly are mounted at the tail end of the output system, the material collecting hopper is mounted at the tail end of the output system, the material collecting plate assembly is mounted in the material collecting hopper, and the material collecting plate assembly is in transmission connection with a driving roller.

9. The modular belt conveyor of claim 8, wherein the material collecting plate assembly comprises a material collecting plate rotatably mounted on the material collecting hopper, a swing pull rod and a swing connecting rod, the swing connecting rod is fixedly mounted on the material collecting plate, one end of the swing pull rod is hinged on the swing connecting rod, and the other end of the swing connecting rod is eccentrically hinged on the driving roller.

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