CN215712693U - Fertilizer secondary fermentation compost device - Google Patents

Abstract

The application discloses fertilizer secondary fermentation composting device includes: the device comprises a portal frame, a first vertical column group, a second vertical column group, a fertilizer piling groove, a first slide rail frame, a second slide rail frame, a first suspender, a second suspender, a pile turning roller, a slide rail platform, a plurality of pile turning shovels, a third suspender group, a fourth suspender group, a chain wheel conveyor, a material blocking vertical plate and a connecting rod; through set up along portal frame reciprocating motion's hoist and mount frame on the portal frame, the outside of turning over the heap roller in one side of hoist and mount frame sets up the sprocket frame, and the one end of sprocket frame inserts one side of fertile heap to set up multi-tooth link joint on the sprocket frame, and set up the striker plate at the opposite side of link frame, the material is carried by sprocket feed machine in fertile heap and is carried to the top after, receives the back whereabouts that blocks of striker plate, realizes turning over the heap.

Description

Fertilizer secondary fermentation compost device

Technical Field

The application relates to the technical field of organic fertilizer production, in particular to an organic fertilizer secondary fermentation composting device.

Background

The organic fertilizer is prepared from green plants, crop straws, human excrement, livestock and bird droppings, garbage, etc. through retting, stacking, high-temp fermenting and decomposing. The application of the organic fertilizer can meet the requirements of crops on various nutrients, improve soil properties, cultivate soil fertility and improve crop yield, thereby being widely applied.

The fertilizer is in the compost fermentation process, because the in-pile heat can't be gone out, lead to the temperature in the heap too high, for the continuation and the bacterial activity of guaranteeing fermentation process, regularly turn over the heap, the fertilizer heap volume is great, the heap is turned over to the crawler-type of current heap machine of turning over mostly adopting, nevertheless turn over the heap process and push fertilizer to one side and lead to the compost shakeout, in order to keep the compost effect, need push the heap once more and gather the fertilizer heap and form the compost heap, increase the processing degree of difficulty and work load, after the inside temperature of the compost heap reduces after shakeout simultaneously, need the longer time fermentation just can reach required temperature, reduce fermentation efficiency extension fermentation time.

SUMMERY OF THE UTILITY MODEL

The application provides a fertilizer secondary fermentation composting device for solving the technical problem.

The application provides fertilizer secondary fermentation composting device includes: the device comprises a portal frame, a first vertical column group, a second vertical column group, a fertilizer piling groove, a first slide rail frame, a second slide rail frame, a first suspender, a second suspender, a pile turning roller, a slide rail platform, a plurality of pile turning shovels, a third suspender group, a fourth suspender group, a chain wheel conveyor, a material blocking vertical plate and a connecting rod; the first upright post groups are symmetrically arranged at the top angle of one side of the bottom surface of the portal frame; the second upright post group is symmetrically arranged at the vertex angle at the other side of the bottom surface of the portal frame; the portal frame is erected on the top surface of the composting groove through the first stand column group and the second stand column group; the sliding rail platform is erected in the portal frame and transversely reciprocates along the portal frame;

the first slide rail frame is arranged on a first side edge of the slide rail platform; the second slide rail frame is arranged on the second side edge of the slide rail platform; the first slide rail frame and the second slide rail frame move in the portal frame along with the slide rail platform;

the first end of the first suspender is connected with the bottom surface of the first slide rail frame; the second end of the first suspender is connected with the first end of the pile turning roller;

the first end of the second suspender is connected with the bottom surface of the first slide rail frame; the second end of the second suspender is connected with the second end of the pile turning roller; the pile turning roller is rotatably arranged between the first suspender and the second suspender;

a plurality of pile turning shovels are arranged on the outer side wall of the pile turning roller, one end of each pile turning shovel is connected with the material feeder on the outer side wall of the pile turning roller, and the other end of each pile turning shovel is obliquely and extendedly arranged outwards;

the third suspender sets are symmetrically arranged on the bottom vertex angle of one side of the second slide rail frame; the fourth suspender group is symmetrically arranged on the bottom vertex angle of the other side of the second slide rail frame;

the length of the third lifting rod group is greater than that of the fourth lifting rod group; two ends of the chain wheel conveyor are respectively hung on the extending ends of the third hanging rod group and the fourth hanging rod group; the first end of the chain wheel conveyor is arranged close to the pile turning roller; the second end of the chain wheel conveyor is obliquely arranged upwards and is close to the vertical material blocking plate;

a connecting rod is arranged on the first outer side wall of the material blocking vertical plate, the first end of the connecting rod is connected with a feeding machine on the outer side wall of the second slide rail frame, and the second end of the connecting rod is connected with the first outer side wall of the material blocking vertical plate; the vertical material blocking plate moves along with the second slide rail frame; the bottom surface of the material blocking vertical plate and the second end of the chain wheel conveyor are arranged at intervals.

Preferably, the method comprises the following steps: the first motor is arranged on the first slide rail frame and is in driving connection with the slide rail platform; the second motor is arranged on the second slide rail frame and is in driving connection with the slide rail platform.

Preferably, the sprocket conveyor comprises: the first chain wheel group is arranged on the extending end of the third hanging rod group in pairs; the second chain wheel group is arranged on the extending end of the fourth hanging rod group in pairs; the chain plate is meshed with the first chain wheel group and the second chain wheel group; the opposite outer side walls of the chain wheel plates are respectively provided with a chain, and the chains are respectively meshed with the chain wheels symmetrically arranged on the first chain wheel set and the second chain wheel set.

Preferably, the sprocket conveyor comprises: and the conveying plates are arranged on the top surface of the chain wheel plate and are perpendicular to the chain wheel plate.

Preferably, the sprocket conveyor comprises: the chain wheel frames are arranged in pairs and arranged on the extending ends of the third hanging rod groups; the first chain wheel set is arranged on the chain wheel frame;

the chain wheel frame is arranged on the extending end of the fourth hanging rod group; the second chain wheel set is arranged on the chain wheel frame.

Preferably, the gantry comprises: the sliding rail comprises a first sliding rail rod, a second sliding rail rod and a sliding rail platform, wherein a sliding block is arranged on the first side wall of the sliding rail platform and is inserted into a sliding groove in the inner side wall of the first sliding rail rod;

a sliding block is arranged on the second side wall of the sliding rail platform and inserted into a sliding groove in the inner side wall of the first sliding rail rod; the first slide rail rod and the second slide rail rod are symmetrically arranged.

Preferably, the method comprises the following steps: the sliding rail rods are symmetrically arranged on two sides of the material blocking vertical plate, are respectively inserted into the inner side wall sliding rails of the first sliding rail rod and the second sliding rail rod and are arranged in a sliding mode along the inner side wall sliding rails of the first sliding rail rod and the second sliding rail rod.

The beneficial effects that this application can produce include:

1) the application provides a fertilizer secondary fermentation compost device, through set up the hoist and mount frame along portal frame reciprocating motion on the portal frame, the outside of turning over the heap roller in one side of hoist and mount frame sets up the sprocket carrier, one side that the one end of sprocket carrier inserted fertile heap to one side to set up multi-tooth link joint on the sprocket carrier, and set up the striker plate at the opposite side of sprocket carrier, the material is carried by sprocket feed and is carried to the top after in the fertile heap, receive the back whereabouts that blocks of striker plate, the realization is turned over the heap. And hang at the opposite side of hoist and mount frame bottom surface and establish and turn over the heap roller, and set up a plurality of heap shovel poles that turn over at the interval on the outer wall of the heap roller that turns over, turn over at first and turn over in the heap shovel pole that turns over on the outer wall of the heap roller inserts the compost through the rotation realization that turns over the heap roller to the preliminary heap of fertile heap, reduce the inseparable degree of piling up of fertile heap bottom material, be convenient for follow-up sprocket frame operation of turning over the heap, thereby realize effectively turning over the pine to the fertile heap material of different degree of depth, when improving and turning over heap efficiency, avoid turning over the material of piling back and shakeout, effectively maintain temperature in the heap, need not secondary and pile. The loosened material passes through the chain plate.

2) The application provides a fertilizer secondary fermentation composting device turns over the heap roller through setting up, can realize turning over the pine operation at first to deep material, reduces sprocket carrier and hangs the heap resistance that turns over of locating under the portal crane, improves and turns over heap efficiency, avoids the too big problem of sprocket carrier resistance.

Drawings

FIG. 1 is a schematic view of an organic fertilizer secondary fermentation composting apparatus provided by the present application;

FIG. 2 is a schematic side view of a turning roll provided by the present application;

FIG. 3 is a schematic top view of a gantry of the present application;

FIG. 4 is a schematic structural diagram of a right side view of a gantry of the present application;

illustration of the drawings:

10. a gantry; 11. a first column set; 12. a second column set; 13. a composting groove; 141. a first slide rail rod; 142. a second slide rail rod; 143. a slide rail platform; 144. a slide rail rod; 21. a first rail frame; 211. a first boom; 212. a second boom; 213. turning over a pile roller; 214. turning and shoveling; 215. a first motor; 22. a second slide rail frame; 221. a third boom group; 222. a fourth boom group; 223. a sprocket frame; 224. a first sprocket set; 225. a second sprocket set; 228. a second motor; 226. a chain plate; 227. a conveying plate; 23. a vertical material blocking plate; 231. a connecting rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In addition, the embodiments of the present invention and the features of the embodiments may be combined with each other without conflict.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, or orientations or positional relationships that are conventionally placed when the products of the present invention are used, or orientations or positional relationships that are conventionally understood by those skilled in the art, and are used only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element that is referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-2, the application provides a fertilizer secondary fermentation compost device includes: the composting device comprises a portal frame 10, a first vertical column group 11, a second vertical column group 12, a composting groove 13, a first slide rail frame 21, a second slide rail frame 22, a first suspender 211, a second suspender 212, a pile turning roller 213, a slide rail platform 143, a plurality of pile turning shovels 214, a third suspender group 221, a fourth suspender group 222, a chain wheel conveyor, a material blocking vertical plate 23 and a connecting rod 231; the first upright post groups 11 are symmetrically arranged at the top angle of one side of the bottom surface of the portal frame 10; the second upright post groups 12 are symmetrically arranged at the top angle of the other side of the bottom surface of the portal frame 10; the portal frame 10 is erected on the top surface of the fertilizer piling slot 13 through a first vertical column group 11 and a second vertical column group 12; the slide rail platform 143 is erected in the portal frame 10 and transversely reciprocates along the portal frame 10;

the first slide rail frame 21 is arranged on a first side edge of the slide rail platform 143; the second slide rail frame 22 is disposed on a second side of the slide rail platform 143; the first slide rail frame 21 and the second slide rail frame 22 move in the portal frame 10 along with the slide rail platform 143;

the first end of the first suspender 211 is connected with the bottom surface of the first slide rail frame 21; the second end of the first suspender 211 is connected with the first end of the pile-turning roller 213;

the first end of the second suspender 212 is connected with the bottom surface of the first slide rail frame 21; the second end of the second suspender 212 is connected with the second end of the pile-turning roller 213; the pile-turning roller 213 is rotatably arranged between the first boom 211 and the second boom 212;

a plurality of pile turning shovels 214 are arranged on the outer side wall of the pile turning roller 213, one end of each pile turning shovel 214 is loaded with a material on the outer side wall of the pile turning roller 213, and the other end of each pile turning shovel 214 is arranged in an outward inclined extending mode;

the third hanger bar groups 221 are symmetrically arranged on the top angle of the bottom surface of one side of the second slide rail frame 22; the fourth hanger bar group 222 is symmetrically arranged on the bottom corner of the other side of the second slide rail frame 22;

the length of the third boom group 221 is greater than the length of the fourth boom group 222; two ends of the chain wheel conveyor are respectively hung on the extending ends of the third hanging rod group 221 and the fourth hanging rod group 222; the first end of the chain wheel conveyor is arranged close to the pile turning roller 213; the second end of the chain wheel conveyor is obliquely arranged upwards and is close to the vertical material blocking plate 23;

a connecting rod 231 is arranged on the first outer side wall of the material blocking vertical plate 23, the first end of the connecting rod 231 is connected with the outer side wall feeding machine of the second slide rail frame 22, and the second end of the connecting rod 231 is connected with the first outer side wall of the material blocking vertical plate 23; the vertical material blocking plate 23 moves along with the second slide rail frame 22; the bottom surface of the material blocking vertical plate 23 and the second end of the chain wheel conveyor are arranged at intervals.

In use, the first slide rail frame 21 moves along the portal frame 10 in the transverse direction in fig. 1, the turning rollers 213 turn the compost, mainly aiming at the bottom area of the compost, the area is compacted due to stacking and extrusion, compost can be turned loose after being turned by the pile turning roller 213, the pile turning pressure of the chain wheel conveyor is reduced, the pile turning efficiency of the chain wheel conveyor is improved, after the compost is turned for the first time, the chain wheel conveyor only needs to turn over the materials, and after the chain wheel conveyor can convey the fertilizer to the top end, falls under the action of the baffle plate to complete further pile turning and can turn the bottom materials to the top to complete effective pile turning, meanwhile, the materials fall and are piled under the blocking of the baffle plates, secondary forming treatment is not needed, pile turning efficiency is improved, the problem that fermentation efficiency is reduced due to the fact that the temperature inside the flattened compost is too low is avoided, and fermentation efficiency is improved.

The sprocket conveyor used in this application is arranged according to the existing commonly used sprocket conveyor and is not described herein in a tireless manner.

Preferably, the method comprises the following steps: the first motor 215 is arranged on the first slide rail frame 21 and is in driving connection with the slide rail platform 143; the second motor 228 is disposed on the second slide rail frame 22 and is drivingly connected to the slide rail platform 143. Through setting up the bi-motor, can effectively guarantee slide rail platform 143's motion reliability, realize effectively bearing and removing turning over heap roller 213 and conveying sprocket.

Preferably, the sprocket conveyor comprises: a first sprocket set 224, a second sprocket set 225, and a chain plate 226, the first sprocket set 224 being provided in pairs on the extended ends of the third hanger bar set 221; the second sprocket set 225 is arranged on the extending end of the fourth hanging rod set 222 in pairs; chain plate 226 is engaged with first sprocket set 224 and second sprocket set 225; the opposite outer side walls of the chain wheel plates are respectively provided with chains which are respectively meshed with the symmetrically arranged chain wheels of the first chain wheel set 224 and the second chain wheel set 225.

According to the setting, third jib group 221 symmetry sets up, sets up the sprocket respectively on the extension end of each jib, and the middle part of sprocket board sets up delivery board 227, can effectively support and bear fertilizer, and both sides set up the chain respectively, and the rotation through the sprocket drives the sprocket board and rotates, accomplishes the transport to the material simultaneously.

Preferably, the sprocket conveyor comprises: and a plurality of conveying plates 227, wherein the conveying plates 227 are arranged on the top surface of the chain wheel plate and are arranged vertical to the chain wheel plate. The conveying plate 227 can provide an oblique supporting force for the material, so that the fertilizer can move from the extension end of the third lifting rod group 221 to the extension end of the fourth lifting rod group 222.

Preferably, the sprocket conveyor comprises: a pair of sprockets 223, the sprockets 223 being disposed on the extended ends of the third hanger bar group 221; the first sprocket set 224 is mounted on the sprocket carrier 223; a sprocket 223 is provided on the extended end of the fourth hanger bar group 222; the second sprocket set 225 is mounted on the sprocket carrier 223. By providing the sprocket frame 223, the sprocket can be stably installed and the rotation thereof can be ensured.

Preferably, the gantry 10 comprises: the slide rail comprises a first slide rail rod 141, a second slide rail rod 142 and a slide rail platform 143, wherein a slide block is arranged on a first side wall of the slide rail platform 143 and inserted into a slide groove in the inner side wall of the first slide rail rod 141; a slide block is arranged on the second side wall of the slide rail platform 143, and the slide block is inserted into a slide groove on the inner side wall of the first slide rail rod 141; the first and second slide rails 141 and 142 are symmetrically disposed.

This arrangement facilitates movement of the rail platform 143 along each rail bar.

Preferably, the method comprises the following steps: the slide rail rods 144 are arranged in pairs, the slide rail rods 144 are symmetrically arranged on two sides of the material blocking vertical plate, and are respectively inserted into the inner side wall slide rails of the first slide rail rod 141 and the second slide rail rod 142 to be arranged, and slide along the inner side wall slide rails of the first slide rail rod 141 and the second slide rail rod 142. According to this setting can improve the support reliability of erecting the baffle, improve and turn over the effective blocking of piling in-process to the material to can guarantee to erect the baffle and effectively slide along with slide rail platform 143.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (7)

1. The utility model provides a fertilizer secondary fermentation composting device which characterized in that includes: the composting device comprises a portal frame (10), a first vertical column group (11), a second vertical column group (12), a composting groove (13), a first slide rail frame (21), a second slide rail frame (22), a first suspender (211), a second suspender (212), a pile turning roller (213), a slide rail platform (143), a plurality of pile turning shovels (214), a third suspender group (221), a fourth suspender group (222), a chain wheel conveyor, a material blocking vertical plate (23) and a connecting rod (231); the first upright post groups (11) are symmetrically arranged at the vertex angle on one side of the bottom surface of the portal frame (10); the second upright post groups (12) are symmetrically arranged at the vertex angle at the other side of the bottom surface of the portal frame (10); the portal frame (10) is erected on the top surface of the fertilizer piling trough (13) through a first vertical column group (11) and a second vertical column group (12); the sliding rail platform (143) is erected in the portal frame (10) and transversely reciprocates along the portal frame (10);

the first slide rail frame (21) is arranged on a first side edge of the slide rail platform (143); the second slide rail frame (22) is arranged on the second side edge of the slide rail platform (143); the first slide rail frame (21) and the second slide rail frame (22) move in the portal frame (10) along with the slide rail platform (143);

the first end of the first suspender (211) is connected with the bottom surface of the first slide rail frame (21); the second end of the first suspender (211) is connected with the first end of the turning roll (213);

the first end of the second suspender (212) is connected with the bottom surface of the first slide rail frame (21); the second end of the second suspender (212) is connected with the second end of the pile turning roller (213); the pile turning roller (213) is rotatably arranged between the first suspender (211) and the second suspender (212);

a plurality of pile turning shovels (214) are arranged on the outer side wall of the pile turning roller (213), one end of each pile turning shovel (214) is loaded with a material machine on the outer side wall of the pile turning roller (213), and the other end of each pile turning shovel is obliquely and outwards extended;

the third lifting rod groups (221) are symmetrically arranged on the top angle of the bottom surface of one side of the second slide rail frame (22); the fourth lifting rod group (222) is symmetrically arranged on the bottom corner of the other side of the second slide rail frame (22);

the length of the third lifting rod group (221) is greater than that of the fourth lifting rod group (222); two ends of the chain wheel conveyor are respectively hung on the extending ends of the third hanging rod group (221) and the fourth hanging rod group (222); the first end of the chain wheel conveyor is arranged close to the pile turning roller (213); the second end of the chain wheel conveyor is obliquely arranged upwards and is arranged close to the vertical material blocking plate (23);

a connecting rod (231) is arranged on a first outer side wall of the material blocking vertical plate (23), a first end of the connecting rod (231) is fed with a material feeding machine of a second slide rail frame (22), and a second end of the connecting rod (231) is connected with the first outer side wall of the material blocking vertical plate (23); the vertical material blocking plate (23) moves along with the second slide rail frame (22); the bottom surface of the material blocking vertical plate (23) is arranged at an interval with the second end of the chain wheel conveyor.

2. The organic fertilizer secondary fermentation composting device of claim 1, comprising: the first motor (215) and the second motor (228), wherein the first motor (215) is arranged on the first slide rail frame (21) and is in driving connection with the slide rail platform (143); the second motor (228) is arranged on the second slide rail frame (22) and is in driving connection with the slide rail platform (143).

3. The organic fertilizer secondary fermentation composting apparatus of claim 1 wherein said sprocket conveyor comprises: the chain wheel assembly comprises a first chain wheel set (224), a second chain wheel set (225) and a chain plate (226), wherein the first chain wheel set (224) is arranged on the extending end of a third hanging rod set (221) in pairs; the second chain wheel set (225) is arranged on the extending end of the fourth hanging rod set (222) in a pair mode; the chain plate (226) is meshed with the first chain wheel set (224) and the second chain wheel set (225); and chains are respectively arranged on the opposite outer side walls of the chain wheel plates and are respectively meshed with the chain wheels symmetrically arranged on the first chain wheel set (224) and the second chain wheel set (225).

4. The organic fertilizer secondary fermentation composting apparatus of claim 3 wherein said sprocket conveyor comprises: and the conveying plates (227) are arranged on the top surface of the chain wheel plate and are vertical to the chain wheel plate.

5. The organic fertilizer secondary fermentation composting apparatus of claim 4 wherein said sprocket conveyor comprises: the chain wheel carriers (223) are arranged in pairs, and the chain wheel carriers (223) are arranged on the extending ends of the third hanging rod groups (221); the first chain wheel set (224) is arranged on a chain wheel frame (223);

the chain wheel rack (223) is arranged on the extending end of the fourth hanging rod group (222); the second sprocket set (225) is mounted on a sprocket carrier (223).

6. The organic fertilizer secondary fermentation composting apparatus of claim 1 wherein said gantry (10) comprises: the sliding rail comprises a first sliding rail rod (141), a second sliding rail rod (142) and a sliding rail platform (143), wherein a sliding block is arranged on a first side wall of the sliding rail platform (143), and the sliding block is inserted into a sliding groove in the inner side wall of the first sliding rail rod (141);

a sliding block is arranged on the second side wall of the sliding rail platform (143), and the sliding block is inserted into a sliding groove in the inner side wall of the first sliding rail rod (141); the first slide rail rod (141) and the second slide rail rod (142) are symmetrically arranged.

7. The organic fertilizer secondary fermentation composting device of claim 6, comprising: the pair of slide rail rods (144), the slide rail rods (144) are symmetrically arranged on two sides of the material blocking vertical plate, are respectively inserted into the inner side wall slide rails of the first slide rail rod (141) and the second slide rail rod (142) and are arranged in a sliding mode, and are arranged along the inner side wall slide rails of the first slide rail rod (141) and the second slide rail rod (142) in a sliding mode.

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