CN115041499B - Environment-friendly agricultural waste utilizes processing apparatus - Google Patents

Abstract

The invention provides an environment-friendly agricultural waste utilization treatment device, which relates to the technical field of agricultural waste treatment and solves the problem that the existing agricultural waste treatment device cannot treat bottle garbage contained in agricultural plants quickly in the practical application process, so that potential safety hazards are generated due to the fact that pesticide bottles are contained in treated matters in the follow-up use process.

Description

Environment-friendly agricultural waste utilizes processing apparatus

Technical Field

The invention belongs to the technical field of agricultural waste treatment, and particularly relates to an environment-friendly agricultural waste utilization treatment device.

Background

The agricultural straw can be used for preparing marsh gas and forming agricultural organic fertilizer, also can be used as coarse fodder and fence laying pad for raising livestock, or can be mixed with proper quantity of human and animal manure to make high-temp. compost, and can be undergone the processes of short-term fermentation so as to can extensively kill pathogenic bacteria, parasitic ova and plant pests hidden in various straw and various weed seeds, etc. in the human and animal manure, then can be fed into marsh gas tank to make fermentation so as to produce marsh gas.

For example, application number: the invention relates to the technical field of bio-organic fertilizers, and discloses a preparation method of a novel bio-organic fertilizer, which comprises the following proving steps of S1, obtaining materials of the organic fertilizer: according to the mass ratio, 50-70 parts of tea seed shell powder, 8-15 parts of straw, 1-4 parts of lobster shell powder, 0.1-3 parts of microbial agent, 0.1-3 parts of urea and 0.1-3 parts of agricultural potassium nitrate are selected; s2, mixing materials: mixing small sections of straw, tea seed shell powder, lobster shell powder, urea and agricultural potassium nitrate, and uniformly stirring by using a stirring device. The invention adopts tea seed shell powder, straw stalk, lobster shell powder, urea and agricultural potassium nitrate as raw materials, and adds microbial agent to prepare the bio-organic fertilizer, the raw materials are easy to obtain, the operation is convenient, the agricultural waste and kitchen waste are treated, the invention has good environmental protection benefit, and the air compressor is used for ventilation, thereby reducing the turning times, accelerating the compost fermentation speed and ensuring more uniform and full compost fermentation.

Agricultural waste treatment devices similar to the above application currently suffer from the following drawbacks:

1. the existing agricultural wastes can not treat bottle garbage contained in agricultural plants quickly during treatment, so that potential safety hazards can be generated due to the fact that the treated objects contain pesticide bottles during subsequent use.

2. Most of the existing agricultural wastes are incinerated and then treated when being treated, but the treatment mode of the incineration still cannot avoid polluting the environment.

3. Most of the existing agricultural wastes are collected after the straws are crushed into powder during treatment, but the powder agricultural wastes are inconvenient to collect and store uniformly, and the use of the existing agricultural wastes is inconvenient because the particles of the wastes are too small.

Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to provide an environmentally friendly agricultural waste utilization and treatment device which can achieve a practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides an environment-friendly agricultural waste utilization treatment device, which aims to solve the problems that the existing agricultural waste treatment device cannot rapidly treat bottle garbage contained in agricultural plants in the practical application process, so that potential safety hazards can be generated due to the fact that pesticide bottles are contained in treated matters in the follow-up use process, the treated straws are incinerated and then treated in the treatment process, but the incinerated treatment mode cannot cause pollution to the environment, and the crushed straws are collected after being crushed into powder in the treatment process, but the powdery agricultural waste is inconvenient to collect and store uniformly, and the particles of the waste are too small in the use process, so that the use is inconvenient.

The invention discloses an environment-friendly agricultural waste utilization treatment device, which is characterized by comprising the following specific technical means:

an environment-friendly agricultural waste utilization treatment device comprises a heating mechanism,

the main body of the heating mechanism is of a cylindrical structural design, a circular plate is further arranged at the top end of the main body of the heating mechanism, through grooves are formed in the right sides of the main body and the circular plate in the heating mechanism, and a flow dividing mechanism is further arranged above the left side of the heating mechanism.

Further, the shunt mechanism includes:

the main body of the split flow component is designed as a guide plate similar to the L-shaped structural design, the inner section of the split flow component is provided with blades, the width of each blade is smaller than that of the main body in the split flow component, the six split flow components are sleeved at the outer side of a transmission shaft positioned at the left side in the transmission component in an annular array, and the six blades are installed in a forward direction;

further, the heating mechanism further includes:

the main body of the flow guide component consists of a sleeve ring and six cylindrical guide rods, the six guide rods are arranged on the outer peripheral surface of the sleeve ring in an annular array, cylindrical material collecting containers are arranged at the tail ends of the six guide rods, the inner bottom ends of the material collecting containers are partition plates with split structure design, and the diameter of the material collecting containers in the flow guide component is smaller than the widths of square grooves formed in the main body and the heat transfer plates in the heating component;

further, the bearing mechanism further comprises:

the main body of the mixing component is of a frustum-shaped structure design with a thick upper part and a thin lower part, the diameter of the largest part of the mixing component is matched with the diameter of the thinnest part of the bearing component, the mixing component is arranged at the bottom end of the bearing component, and mixing teeth are also arranged in the mixing component;

further, the processing mechanism includes:

the separation assembly is formed by symmetrically installing two round tables with the same size, the largest diameter parts of the two round tables in the separation assembly are abutted, the interiors of the two round tables are of hollow structure design and are communicated with each other, square grooves are formed in the annular array on the side of the outer circumferential arc edge of the round table positioned on the upper side, and the top end of the round table positioned on the upper side in the separation assembly is of a closed structure design;

further, the bearing mechanism includes:

the main body of the bearing assembly is of a frustum-shaped structure design with the upper part thick and the lower part thin, the inner wall of the member at the thickest part of the bearing assembly is provided with a guide groove which is of a spiral structure design and extends out of the main body of the bearing assembly, and the left side of the outer peripheral surface of the member at the thinnest part of the bearing assembly is also provided with a feeding pipe;

further, the processing mechanism further includes:

the main body of the treatment assembly consists of two transmission shafts, spiral crushing teeth are sleeved on the outer sides of the two transmission shafts, the two spiral crushing teeth are meshed with each other, and the length of the main body of the treatment assembly is smaller than the diameter of the narrowest part of the round table positioned at the lower side in the separation assembly;

further, the heating mechanism includes:

the heating assembly is structurally designed for the heating furnace, a cylindrical heat transfer plate is further arranged on the top end face of the heating assembly, and two-way through square groove structural designs are formed in the main body of the heating assembly and the right end of the heat transfer plate, wherein the diameter of the heat transfer plate is larger than that of the main body of the heating assembly;

further, the shunt mechanism further includes:

the main body of the driven component is of a cuboid structural design, the installation direction of the driven component is consistent with the installation direction of the blades in the split component, the driven component is arranged along the outer contour of the main body in the split component, one end, far away from the split component, of the driven component is of a sharp structural design, and the outer side of the driven component is also provided with a bearing mechanism;

further, the heating mechanism further includes:

the main part of drive assembly comprises two transmission shafts, and wherein the length of drive assembly that is located the right side is greater than the length of the transmission shaft that is located the left side, and the band pulley is all installed to the outer peripheral face top side of two transmission shafts, passes through belt friction drive in the outside of two band pulleys to the water conservancy diversion subassembly has still been cup jointed in the outside of the transmission shaft that is located the right side in the drive assembly, still is provided with reposition of redundant personnel mechanism in the upper left side of drive assembly.

Compared with the prior art, the invention has the following beneficial effects:

1. due to the arrangement of the diversion mechanism, after the wastes are put into the bearing assembly, the diversion assembly in the diversion mechanism can be started to drive the diversion assembly to primarily crush the wastes by the blades under the pressing action of the diversion assembly, and bottle wastes contained in the agricultural wastes can be discharged through the guide grooves formed in the inner wall of the bearing assembly under the stirring action of the diversion assembly.

2. Owing to be provided with mixing element, consequently can flow into mixing element's inside position after stirring garrulous with agricultural waste gas thing, rethread fills animal excrement and urine to mixing element's inside this moment and mixes excrement and urine and agricultural waste through mixing the tooth, and the waste after mixing will flow into the inside position of the water conservancy diversion subassembly in the heating mechanism through mixing element, and this design accessible mixes the shaping with animal excrement and urine and agricultural product waste after quick discharge, and then reaches more practical purpose.

Drawings

Fig. 1 is a schematic view of a left side view in a partially constructed semi-cut-away state of the present invention.

Fig. 2 is a schematic front view of the present invention in a partially-sectioned state.

Fig. 3 is a schematic top view of the present invention in a partially constructed semi-cut state.

Fig. 4 is a right side view schematic of the present invention in a partially constructed semi-cut-away state.

Fig. 5 is a schematic view of a side elevation view of the present invention in a partially constructed semi-cut-away state.

Fig. 6 is an enlarged schematic view of the structure of fig. 4 a according to the present invention.

Fig. 7 is an enlarged schematic view of the structure of fig. 4B according to the present invention.

Fig. 8 is a schematic structural view of the shunt mechanism of the present invention.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a heating mechanism; 101. a heating assembly; 102. a flow guiding assembly; 103. a transmission assembly; 2. a shunt mechanism; 201. a shunt assembly; 202. a driven assembly; 3. a carrying mechanism; 301. a carrier assembly; 302. a mixing assembly; 4. a processing mechanism; 401. a separation assembly; 402. a processing assembly.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the invention but are not intended to limit the scope of the invention.

In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Examples:

as shown in fig. 1 to 8:

the invention provides an environment-friendly agricultural waste utilization treatment device, which comprises: the heating means 1 are arranged such that,

the main part of heating mechanism 1 is cylindrical structural design, and the main part top of heating mechanism 1 still is equipped with a circular plate to the logical groove that link up has all been seted up on the right side of main part and circular plate in the heating mechanism 1, still installs reposition of redundant personnel mechanism 2 in the upper left side of heating mechanism 1.

Wherein the shunt mechanism 2 comprises:

the split flow component 201, the main body of the split flow component 201 is a guide plate design similar to an L-shaped structural design, the inner section of the split flow component 201 is provided with blades, the width of each blade is smaller than that of the main body in the split flow component 201, six split flow components 201 are sleeved at the outer side of a transmission shaft positioned at the left side in the transmission component 103 in an annular array, and six blades are installed in a forward direction.

Wherein the carrying mechanism 3 comprises:

the main body of the bearing assembly 301 is of a frustum-shaped structure with a thicker upper part and a thinner lower part, the inner wall of the thickest part of the bearing assembly 301 is provided with a guide groove which is of a spiral structure, the guide groove extends out of the main body of the bearing assembly 301, and a feeding pipe is further arranged on the left side of the outer peripheral surface of the thinnest part of the bearing assembly 301.

Wherein the processing mechanism 4 further comprises:

the main body of the processing component 402 is composed of two transmission shafts, spiral crushing teeth are sleeved on the outer sides of the two transmission shafts, the two spiral crushing teeth are meshed with each other, and the length of the main body of the processing component 402 is smaller than the narrowest diameter of a round table positioned on the lower side of the separation component 401.

Wherein the heating mechanism 1 further comprises:

the transmission assembly 103, the main part of transmission assembly 103 comprises two transmission shafts, and wherein the length of transmission assembly 103 that is located the right side is greater than the length of transmission shaft that is located the left side, and the band pulley is all installed to the outer peripheral face top side of two transmission shafts, passes through belt friction transmission in the outside of two band pulleys to the outside of transmission shaft that is located the right side in transmission assembly 103 has still cup jointed guide assembly 102, still is provided with reposition of redundant personnel mechanism 2 in the upper left side of transmission assembly 103.

Wherein the processing mechanism 4 comprises:

the separation assembly 401, the separation assembly 401 is formed by symmetrically installing two round tables with the same size, the largest diameter parts of the two round tables in the separation assembly 401 are abutted, the inner parts of the two round tables are of hollow structure design and are communicated with each other, square grooves are formed in the annular array on the side of the outer circumference arc side of the round table positioned on the upper side, and the top end of the round table positioned on the upper side in the separation assembly 401 is of a closed structure design.

Wherein the heating mechanism 1 comprises:

the heating component 101, the main part of heating component 101 is heating furnace structural design, and cylindrical heat transfer plate is still installed to the top face of heating component 101 to the square groove structural design that two-way link up has all been seted up to the right-hand member of the main part of heating component 101 and heat transfer plate, and wherein the diameter of heat transfer plate is greater than the main part diameter of heating component 101.

Wherein the shunt mechanism 2 further comprises:

the driven component 202, the main part of driven component 202 is cuboid structural design, and the installation direction of driven component 202 is unanimous with the installation direction of blade in the reposition of redundant personnel subassembly 201 to driven component 202 sets up along the main part outline in the reposition of redundant personnel subassembly 201, and driven component 202 keeps away from the one end of reposition of redundant personnel subassembly 201 and is sharp structural design, still is equipped with in driven component 202's outside and bears mechanism 3.

Wherein the carrying mechanism 3 further comprises:

the main body of the mixing component 302 is designed into a frustum-shaped structure with a thick upper part and a thin lower part, the maximum diameter of the mixing component 302 is matched with the diameter of the thinnest part of the bearing component 301, the mixing component 302 is arranged at the bottom end of the bearing component 301, and mixing teeth are further arranged inside the mixing component 302.

Wherein the heating mechanism 1 further comprises:

the main body of the flow guiding component 102 is composed of a lantern ring and six cylindrical guide rods, the six guide rods are arranged on the outer peripheral surface of the lantern ring in an annular array mode, cylindrical collecting containers are arranged at the tail ends of the six guide rods, the bottom end of the inside of each collecting container is a partition plate with a split structure design, and the diameter of each collecting container in the flow guiding component 102 is smaller than the width of square grooves formed in the main body and the inside of the heat transfer plate in the heating component 101.

When in use, the utility model is characterized in that: firstly, agricultural wastes are input through a bearing component 301 in a bearing mechanism 3, as the main body of the bearing component 301 is of a frustum-shaped structure design with the upper part thick and the lower part thin, and the inner wall of the thickest part component of the bearing component 301 is provided with a guide groove which is of a spiral structure design and extends out of the main body of the bearing component 301, after the wastes are input into the bearing component 301, the diversion component 201 in the diversion mechanism 2 can be started to drive the diversion component 102 to initially crush the wastes by utilizing blades under the pressing action of the diversion component 102, and bottle wastes contained in the agricultural wastes can be discharged through the guide groove provided on the inner wall of the bearing component 301 under the stirring action of the diversion component 201;

on the other hand, the agricultural waste crushed by the flow dividing assembly 201 falls into the inner position of the processing assembly 402 through square grooves formed in an annular array in the frustum at the upper side in the separating assembly 401 in the processing mechanism 4, at this time, the processing assembly 402 is started to rotate, spiral crushing teeth are sleeved on the outer side of a main transmission shaft of the processing assembly 402, the two spiral crushing teeth are meshed with each other, and then the agricultural waste is crushed and flows into the inner position of the mixing assembly 302, at this time, animal manure is filled into the mixing assembly 302 to mix the manure and the agricultural waste through the mixing teeth, and the mixed waste flows into the inner position of the flow guiding assembly 102 in the heating mechanism 1 through the mixing assembly 302;

the main body of the flow guiding component 102 is composed of a collar and six cylindrical guide rods, the six guide rods are arranged on the outer peripheral surface of the collar in an annular array, cylindrical collecting containers are arranged at the tail ends of the six guide rods, the bottom ends of the interiors of the collecting containers are partition plates designed in a split structure, the collecting containers are contacted with the heating component 101 for heating and then are shaped, and the shaped mixture is discharged through square grooves formed in the heating component 101 in the heating mechanism 1.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (3)

1. An environment-friendly agricultural waste utilizes processing apparatus, its characterized in that: including heating mechanism and processing mechanism, heating mechanism's main part is cylindrical structural design, and heating mechanism's main part top still is equipped with a circular plate to the logical groove of lining up has all been seted up on the right side of main part and circular plate in the heating mechanism, heating mechanism still includes: the main part of water conservancy diversion subassembly, water conservancy diversion subassembly comprises a lantern ring and six columniform guide arms, and six guide arms are annular array setting on the outer peripheral face of lantern ring, and all install columniform collection material container at six guide arm's end, and collection material container's inside bottom is the baffle of split structural design to collection material container's diameter in the water conservancy diversion subassembly is less than the width of the square groove of main part and the inside seting up of heat transfer plate in the heating element, heating mechanism still includes: the transmission subassembly, the main part of transmission subassembly comprises two transmission shafts, and wherein the length of the transmission subassembly that is located the right side is greater than the length of the transmission shaft that is located the left side, and the band pulley is all installed to the outer peripheral face top side of two transmission shafts, passes through belt friction drive in the outside of two band pulleys to the water conservancy diversion subassembly has still been cup jointed in the outside of the transmission shaft that is located the right side in the transmission subassembly, still installs reposition of redundant personnel mechanism in the upper left side of heating mechanism, reposition of redundant personnel mechanism includes: the main part of reposition of redundant personnel subassembly is the baffle design of class "L" font structural design, and the inside cross-section of reposition of redundant personnel subassembly installs the blade, and the width of blade is less than the main part width in the reposition of redundant personnel subassembly to six punishment subassemblies are annular array and cup joint the outside position that is located left transmission shaft in the drive assembly, six blades are the cisoid installation, reposition of redundant personnel mechanism still includes: the driven component, driven component's main part is cuboid structural design, and driven component's installation direction is unanimous with the installation direction of blade in the reposition of redundant personnel subassembly to driven component sets up along the main part outline in the reposition of redundant personnel subassembly, and driven component keeps away from the one end of reposition of redundant personnel subassembly and is sharp-pointed structural design, still is equipped with in driven component's outside and bears the weight of the mechanism, bear the weight of the mechanism still and include: mixing element, mixing element's main part is thick frustum shape structural design from top to bottom, and mixing element's biggest department diameter and the diameter phase-match of finest department in the carrier assembly to mixing element installs in the bottom position of carrier assembly, still installs mixing tooth in mixing element's inside, processing mechanism includes: the separation subassembly, separation subassembly comprises two round platform symmetry installations of equidimension, and the biggest department butt of two round platform diameters in the separation subassembly to the inside of two round platforms is hollow structural design and link up each other, and wherein the circular array has been seted up to the periphery arc limit side of the round platform that is located the upside, and is closed structural design on the round platform top that is located the upside in the separation subassembly, processing mechanism still includes: the main body of the processing component consists of two transmission shafts, spiral crushing teeth are sleeved on the outer sides of the two transmission shafts, the two spiral crushing teeth are meshed with each other, and the length of the main body of the processing component is smaller than the diameter of the narrowest part of the round table positioned at the lower side in the separation component.

2. An environmental protection type agricultural waste utilization processing apparatus according to claim 1, wherein: the heating mechanism includes:

the heating component, the main part of heating component is heating furnace structural design, and cylindrical heat transfer plate is still installed to heating component's top end face to the square groove structural design that two-way link up has all been seted up to heating component's main part and heat transfer plate's right-hand member, and wherein the diameter of heat transfer plate is greater than heating component's main part diameter.

3. An environmental protection type agricultural waste utilization processing apparatus according to claim 1, wherein: the bearing mechanism comprises:

the main body of the bearing assembly is of a frustum-shaped structural design with the upper part thick and the lower part thin, the inner wall of the member at the thickest part of the bearing assembly is provided with a guide groove which is of a spiral structural design and extends out of the main body of the bearing assembly, and the left side of the outer peripheral surface of the member at the thinnest part of the bearing assembly is also provided with a feeding pipe.