CN214526245U - Production bio-organic fertilizer is with broken transmission device of second grade fermentation material - Google Patents

Abstract

The utility model relates to a production secondary fermentation broken material transmission device for bio-organic fertilizer, relate to bio-fertilizer production facility's field, production secondary fermentation broken material transmission device for bio-organic fertilizer, which comprises a frame, conveyer belt body and a plurality of driving roller, a plurality of driving rollers set gradually along material moving direction, conveyer belt body cover is established in the driving roller outside, it is connected with the conflict roller to rotate in the frame, the conflict roller is contradicted with one side that the conveyer belt body is close to ground, be connected with polylith vibration board on the conveyer belt body, polylith vibration board sets gradually along material moving direction, be provided with the flitch that connects that is used for accepting the material in the frame. The material receiving plate is arranged, so that the conveyor belt body is not easy to scatter materials around the conveyor belt, and the purpose of reducing the follow-up cleaning work of workers is achieved.

Description

Production bio-organic fertilizer is with broken transmission device of second grade fermentation material

Technical Field

The application relates to the field of bio-fertilizer production equipment, in particular to a two-stage fermentation material crushing and conveying device for producing bio-organic fertilizers.

Background

In the bio-organic fertilizer production process, a production workshop needs to adopt a conveyor belt as a conveying device for transporting secondary fermentation materials for bio-organic fertilizers.

In the related art, as shown in fig. 1, the transmission device includes a conveyor belt body 200 and a frame 100, the frame 100 is rotatably connected with a plurality of transmission rollers 300, the conveyor belt body 200 is sleeved outside the transmission rollers 300, and the frame 100 is provided with a driving assembly for driving one or more of the transmission rollers 300 to rotate. The material is placed on the conveyor belt body 200, and the driving assembly is controlled, so that the driving roller 300 rotates and drives the conveyor belt body 200 to operate, and the material is transported.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: the secondary fermentation material for the bio-organic fertilizer is powder, so when the material is transported by the conveyor belt body, the material is easily adhered to the conveyor belt body, and the conveyor belt continuously runs, the material is scattered around the conveyor belt, so that the follow-up cleaning work of workers is increased.

SUMMERY OF THE UTILITY MODEL

In order to reduce staff's follow-up cleaning work, this application provides a production is broken transmission device of second grade fermentation material for bio-organic fertilizer.

The application provides a pair of production bio-organic fertilizer is with broken transmission device of second grade fermentation material adopts following technical scheme:

the utility model provides a production secondary fermentation broken transmission device of material for bio-organic fertilizer, includes frame, conveyer belt body and a plurality of driving roller, and is a plurality of the driving roller sets gradually along material moving direction, the conveyer belt body cover is established in the driving roller outside, it is connected with the conflict roller to rotate in the frame, the conflict roller is contradicted with one side that the conveyer belt body is close to ground, be connected with polylith vibration board on the conveyer belt body, the polylith vibration board sets gradually along material moving direction, be provided with the flitch that connects that is used for accepting the material in the frame.

Through adopting above-mentioned technical scheme, the conveyer belt moves, when the conveyer belt moves to vibration board and conflict roller conflict, the conveyer belt body is close to and produces the clearance between one side on ground and the conflict roller, when the conveyer belt moves to the conflict state of vibration board and conflict roller and removes, one side that the conveyer belt body is close to ground drops to the direction that is close to the conflict roller, thereby make the conveyer belt body vibrated, so that the material on the conveyer belt body is shaken, and drop to connect on the flitch, thereby make the conveyer belt body be difficult for scattering the material around the conveyer belt, thereby realize reducing the purpose of the follow-up work of clearing up of staff.

Optionally, the vibrating plate is a flexible plate.

By adopting the technical scheme, the vibrating plate is arranged as the soft plate, so that the vibrating plate is not easy to interfere with the operation of the conveyor belt, and meanwhile, the situation of material storage is not easy to generate between the vibrating plate and the conveyor belt body; in addition, the vibrating plate is arranged as a soft plate, so that when the conveying belt body drives the vibrating plate to move to one side, close to the ground, of the conveying belt body, the free end of the vibrating plate moves towards the direction close to the ground, when the vibrating plate is abutted to the abutting plate, the situation that the vibrating plate is folded appears, when the abutting plate is abutted to the abutting roller, the distance between the conveying belt body and the abutting roller is increased, and the vibration amplitude of the conveying belt body is increased.

Optionally, the vibrating plate is an elastic rubber plate.

Through adopting above-mentioned technical scheme, the vibration board is the elastic rubber board, when further having increased the vibration board and conflicting with the conflict roller, conveyer belt body and conflict roller interval to the vibration range of increase conveyer belt body.

Optionally, the vibrating plate is rotatably connected with the conveyor belt body.

Through adopting above-mentioned technical scheme, vibration board and conveyer belt are rotated and are connected for the difficult conveyer belt operation that interferes of vibration board, the difficult retention of material is between vibration board and conveyer belt body simultaneously.

Optionally, one side of the vibrating plate close to the conveyor belt body is fixedly connected with a buffer spring, and one end of the buffer spring, which is far away from the vibrating plate, is fixedly connected with the conveyor belt body.

Through adopting above-mentioned technical scheme, buffer spring's setting for when the conveyer belt body moves to its position that turns to, buffer spring produces deformation, thereby vibrates the conveyer belt body, with the material volume that bonds on the reduction conveyer belt body.

Optionally, a plurality of auxiliary rollers are rotatably connected to the frame, each two auxiliary rollers are in a group, two auxiliary rollers in the same group are respectively located on two sides of the conveyor belt body close to the ground, and the two auxiliary rollers are attached to the conveyor belt body.

Through adopting above-mentioned technical scheme, the setting of auxiliary roller for the vibration of conveyer belt body is difficult for conveying to other positions of conveyer belt body, thereby makes the material on the conveyer belt body be difficult for dropping on and connects the flitch outside.

Optionally, the auxiliary roller is connected with the driving assembly, so that the driving assembly drives the auxiliary roller to rotate.

Through adopting above-mentioned technical scheme, the auxiliary roller is connected with drive assembly for the auxiliary roller rotates, thereby reduces the frictional force between auxiliary roller and the conveyer belt, thereby further makes the material on the conveyer belt be difficult for dropping.

Optionally, the material receiving plates are provided with a plurality of blocks and fixedly connected with the rack, every two of the material receiving plates are in a group and are obliquely arranged, and the free ends of the two material receiving plates in the same group are obliquely arranged in the direction close to each other.

Through adopting above-mentioned technical scheme, the flitch that connects that the slope set up carries on the material that falls to the conveying belt body when accepting, plays the guide effect to make the material that falls on the conveying belt gather together, so that the staff collects the waste material.

In summary, the present application includes at least one of the following beneficial technical effects:

1. due to the arrangement of the material receiving plate, materials adhered to the conveyor belt body are not prone to falling on the ground around the conveyor belt, so that the subsequent cleaning work of workers is reduced;

2. due to the arrangement of the vibrating plate, the conveying belt body vibrates, so that the material retention on the conveying belt body is reduced;

3. the setting of supplementary roller for the vibration range that is located the conveyer belt body that connects the flitch scope outside reduces, thereby makes the material that connects the flitch scope outside difficult dropping subaerial.

Drawings

FIG. 1 is a drawing of the related art;

FIG. 2 is a schematic overall structure diagram of a first embodiment of the present application;

FIG. 3 is a schematic view of the overall structure of the embodiment of the present application when the vibrating plate is a hard plate;

fig. 4 is a schematic overall structure diagram of the second embodiment of the present application.

Description of reference numerals: 100. a frame; 110. a support roller; 200. a conveyor belt body; 300. a driving roller; 400. a touch roller; 500. a vibrating plate; 510. a buffer spring; 600. a material receiving plate; 700. an auxiliary roller; 800. a drive motor; 810. a drive wheel; 820. a first drive pulley; 830. a second transmission wheel; 840. a first drive belt; 850. a transmission gear; 860. a second drive belt.

Detailed Description

The present application is described in further detail below with reference to figures 2-4.

The embodiment of the application discloses production bioorganic fertilizer is with broken transmission device of second grade fermentation material. Referring to fig. 2, the conveying device includes a frame 100, a plurality of driving rollers 300, and a conveyor belt body 200, in this embodiment, two driving rollers 300 are provided, and the two driving rollers 300 are arranged in parallel at an interval along the material moving direction. The conveyor belt body 200 is sleeved outside the transmission rollers 300, the rack 100 is fixedly connected with the driving motor 800, and an output shaft of the driving motor 800 is coaxially and fixedly connected with one of the transmission rollers 300, so that the driving motor 800 drives the transmission roller 300 connected with the driving motor to rotate, and the conveyor belt body 200 runs.

In order to improve the stability when the conveyor belt drives the material to move, the rack 100 is rotatably connected with a plurality of supporting rollers 110, and the supporting rollers 110 are pairwise and are divided into a plurality of groups. Along the material moving direction, multiunit backing roll 110 sets gradually, and is located the slope setting of a set of two backing rolls 110, and along the direction that is close to each other, two backing rolls 110 all incline to the direction that is close to ground.

Because conveyer belt body 200 drives the material when moving, partial powder bonds on conveyer belt body 200, and the conveyer belt is in the process of moving, the material that bonds on conveyer belt body 200 scatters subaerial to the time of the follow-up clearance of staff has been increased, consequently a plurality of flitchs 600 that connect of fixedly connected with on the frame 100 in this application, even the material that bonds on conveyer belt body 200 drops on connecing flitch 600 when conveyer belt body 200 moves, thereby make the material gather, difficult scattering subaerial, with the follow-up clearance work that reduces the staff. In this embodiment, the two receiving plates 600 are arranged in the same direction, and the two receiving plates 600 are sequentially arranged along the moving direction of the material, and one side of each receiving plate 600 is fixed to the frame 100, and the other side of each receiving plate 600 is inclined toward the direction close to the other side.

Rotate on the frame 100 and be connected with a plurality of conflict rollers 400, along material moving direction, a plurality of parallel intervals of conflict rollers 400 set up, and conflict roller 400 contradicts with one side that the conveyer belt is close to ground, and conflict roller 400 is provided with two in this embodiment, and two conflict rollers 400 are located two and connect between flitch 600 to the material that drops on messenger's conveyer belt body 200 is difficult for falling outside connecing flitch 600 scope.

The conveyer belt body 200 is fixedly connected with a plurality of vibration plates 500, the vibration plates 500 are soft plates, and the vibration plates 500 are elastic rubber plates in this embodiment. When the vibrating plate 500 moves along with the conveyor belt body 200, the following three situations occur, firstly, when the vibrating plate 500 moves along with the conveyor belt body 200 to a side of the vibrating plate 500, which is far away from the ground, of the conveyor belt body 200, the vibrating plate 500 is attached to the conveyor belt body 200 due to the self gravity, so that the vibrating plate 500 is not easy to interfere with the conveyor belt to convey materials; secondly, when the vibration plate 500 moves along with the conveyor belt body 200 to a position where the vibration plate 500 is located at the conveyor belt body 200 and turns, the vibration plate 500 slowly turns away from the conveyor belt body 200 due to self gravity and inertia, so that material storage is not easy to occur between the conveyor belt body 200 and the vibration plate 500; third when vibration board 500 moves to vibration board 500 along with conveyer belt body 200 and is located the one side that conveyer belt body 200 is close to ground, vibration board 500 free end moves to the direction that is close to ground under self action of gravity, when conveyer belt body 200 moves to vibration board 500 and contradicts with conflict roller 400, vibration board 500 takes place to fold under the effect of conflict roller 400, thereby make the interval grow between conveyer belt body 200 and the conflict roller 400, when conveyer belt body 200 moves to the conflict contact between vibration board 500 and the conflict roller 400, conveyer belt body 200 can drop downwards to the position of contradicting with conflict roller 400, thereby make conveyer belt body 200 vibrate, make the material that bonds on conveyer belt body 200 shaken off, thereby further reduce the reservation of material on the conveyer belt body 200.

Referring to fig. 3, in other embodiments of the present application, the vibration plate 500 may be a hard plate, and one end of the vibration plate 500 is rotatably connected to the conveyor belt body 200, and the other end is fixedly connected to the conveyor belt body 200 through a buffer spring 510.

When the vibrating plate 500 moves along with the conveyor belt body 200, the following two situations occur, firstly, when the vibrating plate 500 moves along with the conveyor belt body 200 to the side of the vibrating plate 500, which is far away from the ground, of the conveyor belt body 200, the vibrating plate 500 is attached to the conveyor belt body 200 due to the gravity of the material and the gravity of the vibrating plate, so that the vibrating plate 500 is not easy to interfere with the conveyor belt to convey the material; secondly, when the vibrating plate 500 moves to the side of the vibrating plate 500 close to the ground along with the conveyor belt body 200, the free end of the vibrating plate 500 moves towards the direction close to the ground under the action of the self gravity, when the conveyor belt body 200 moves to the side of the vibrating plate 500 abutting against the abutting roller 400, the vibrating plate 500 is folded under the action of the abutting roller 400, so that the distance between the conveyor belt body 200 and the abutting roller 400 is increased, when the conveyor belt body 200 moves to the position where the vibrating plate 500 abuts against the abutting roller 400, the conveyor belt body 200 falls downwards to the position where the abutting roller 400 abuts against, so that the conveyor belt body 200 vibrates, the material adhered on the conveyor belt body 200 is shaken off, thereby further reducing the retention of the material on the conveyor belt body 200, and the arrangement of the buffer spring 510 improves the vibration amplitude of the conveyor belt body 200, so that the tightness degree of the conveyor belt body 200 is not easily too large, and the conveyor belt body 200 is not easily damaged.

The implementation principle of the second grade fermentation material crushing and conveying device for producing the bio-organic fertilizer is as follows: start driving motor 800 for conveyer belt body 200 drives the material and removes, and when conveyer belt body 200 operation in-process, vibration board 500 is contradicted with conflict roller 400 gradually, thereby makes conveyer belt body 200 take place to vibrate, so that the material on the conveyer belt body 200 is vibrated to connecing on the flitch 600.

Example two

Referring to fig. 4, in order to make the vibration generated by the vibration plate 500 to the conveyor belt body 200 not easily diffuse out of the range of the two material receiving plates 600, a plurality of auxiliary rollers 700 are rotatably connected to the frame 100, in this embodiment, four auxiliary rollers 700 are provided, two auxiliary rollers 700 are provided, and two auxiliary rollers 700 are respectively located on the sides of the two material receiving plates 600 far away from each other, in other embodiments, two auxiliary rollers 700 may be located on the sides of the two material receiving plates 600 close to each other.

In order to reduce the friction between the auxiliary rollers 700 and the conveyor belt body 200, a first driving wheel 820 is coaxially and fixedly connected to one auxiliary roller 700 far from the ground in the group of auxiliary rollers 700 close to the driving motor 800, a driving wheel 810 is coaxially and fixedly connected to the driving roller 300, and the driving wheel 810 and the first driving wheel 820 are in driving connection through a first driving belt 840. Two auxiliary rollers 700 close to the ground in the two groups of auxiliary rollers 700 are coaxially and fixedly connected with second driving wheels 830, and the two second driving wheels 830 are in transmission connection through second driving belts 860. A transmission gear 850 is coaxially and fixedly connected to the two auxiliary rollers 700 in the same group, and the two transmission gears 850 are meshed.

The implementation principle of the second grade fermentation material crushing and conveying device for producing the bio-organic fertilizer is as follows: starting the driving motor 800 to enable the conveyor belt body 200 to drive the material to move, and when the conveyor belt body 200 runs, the vibration plate 500 gradually collides with the collision roller 400, so that the conveyor belt body 200 vibrates, and the material on the conveyor belt body 200 is vibrated to the material receiving plate 600;

the driving motor 800 drives the driving wheel 810 to rotate, so that the first driving wheel 820 connected with the driving wheel 810 rotates, that is, the auxiliary roller 700 coaxially and fixedly connected with the first driving wheel 820 rotates, because the two auxiliary rollers 700 in one set of auxiliary roller 700 are connected through the driving gear 850, so that the second driving wheel 830 rotates, and the second driving belt 860 is driven to rotate an auxiliary roller 700 close to the ground in the other set of auxiliary roller 700, and finally, the two sets of auxiliary rollers 700 synchronously rotate, so that the vibration of the conveyor belt body 200 is not easily diffused to other positions of the conveyor belt body 200.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a production bioorganic fertilizer is with broken transmission device of second grade fermentation material, a plurality of including frame (100), conveyer belt body (200) and a plurality of driving roller (300) are a plurality of driving roller (300) set gradually along material moving direction, conveyer belt body (200) cover is established in the driving roller (300) outside, it is connected with to touch roller (400) to rotate on frame (100), touch roller (400) and conveyer belt body (200) are close to one side on ground and contradict, be connected with polylith vibration board (500) on conveyer belt body (200), the polylith vibration board (500) set gradually along material moving direction, be provided with on frame (100) and be used for accepting connecing flitch (600) of material.

2. The secondary fermentation material crushing and conveying device for producing the bio-organic fertilizer as claimed in claim 1, wherein the vibrating plate (500) is a soft plate.

3. The secondary fermentation material crushing and conveying device for producing the bio-organic fertilizer as claimed in claim 1, wherein the vibrating plate (500) is an elastic rubber plate.

4. The secondary fermentation material crushing and conveying device for producing the bio-organic fertilizer as claimed in claim 1, wherein the vibration plate (500) is rotatably connected with the conveyor belt body (200).

5. The crushing and conveying device for the secondary fermentation materials for producing the bio-organic fertilizer is characterized in that a buffer spring (510) is fixedly connected to one side, close to the conveyor belt body (200), of the vibration plate (500), and one end, far away from the vibration plate (500), of the buffer spring (510) is fixedly connected with the conveyor belt body (200).

6. The secondary fermentation material crushing and conveying device for producing the bio-organic fertilizer as claimed in claim 1, wherein a plurality of auxiliary rollers (700) are rotatably connected to the frame (100), each two of the plurality of auxiliary rollers (700) form a group, two auxiliary rollers (700) in the same group are respectively located on two sides of the conveyor belt body (200) close to the ground, and the two auxiliary rollers (700) are attached to the conveyor belt body (200).

7. The secondary fermentation material crushing and conveying device for producing the bio-organic fertilizer as claimed in claim 6, wherein the auxiliary roller (700) is connected with a driving component, so that the driving component drives the auxiliary roller (700) to rotate.

8. The two-stage fermentation material crushing and conveying device for producing the bio-organic fertilizer as claimed in any one of claims 1 to 7, wherein a plurality of receiving plates (600) are arranged, the receiving plates (600) are fixedly connected with the frame (100), the receiving plates (600) are arranged in pairs, the receiving plates (600) are arranged in an inclined manner, and the free ends of the two receiving plates (600) in the same group are arranged in an inclined manner in the direction of approaching each other.

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