CN110800462A

CN110800462A - Movable grass jelly harvester

Info

Publication number: CN110800462A
Application number: CN201911276514.9A
Authority: CN
Inventors: 蔡锦祥; 蔡锦森; 蔡东孟
Original assignee: NANAN CITY GREEN BIOGAS TECHNOLOGY DEVELOPMENT AND RESEARCH INSTITUTE
Current assignee: NANAN CITY GREEN BIOGAS TECHNOLOGY DEVELOPMENT AND RESEARCH INSTITUTE
Priority date: 2019-12-12
Filing date: 2019-12-12
Publication date: 2020-02-18

Abstract

The invention provides a mobile Mesona chinensis harvester, which comprises a carrier, a leaf part collecting box and a water tank, wherein the leaf part collecting box and the water tank are arranged on the carrier; the conveying device is detachably arranged on the carrier through the mounting frame, and the conveying device is detachably arranged on the carrier through the mounting frame and can be in bolt connection; the immortal grass can enter between the two rows of closely-arranged rubber extrusion conveyor belts through the two rows of closely-arranged rubber extrusion conveyor belts and is elastically extruded by the rubber extrusion conveyor belts, so that the immortal grass can be easily pulled out from wet land; the mode of conveying the Mesona chinensis by the rubber extrusion conveying belt is suitable for the height and planting environment of Mesona chinensis; moreover, the surface of the roll shaft is covered with the rubber elastic layer, so that the elasticity of the material can be fully utilized, and the Mesona chinensis can be fully extruded and harvested for transportation.

Description

Movable grass jelly harvester

Technical Field

The invention relates to the field of celestial grass harvesting, in particular to a movable celestial grass harvester.

Background

The Mesona chinensis Benth is herbaceous, upright or creeping. The stem is 15-100 cm high, branches are few or four, and the stem and the branches are in a triangular shape, sometimes have grooves, and are fallen long and thin bristles. The leaf-narrow oval shape to broad oval shape or nearly circular shape, the length is 2-5 cm, the width is 0.8-2.8 cm, the leaf-narrow oval shape is smaller on the small branch, the tip is sharp or blunt, the base is sharp, blunt or sometimes circular, the edge is provided with shallow or deep sawteeth, the paper or the nearly membrane is made, the two sides are fine seta or mollissima, or only seta along the lower veins, or no seta, 6-7 pairs of side veins and the middle rib are flat on the upper surface or slightly raised on the lower surface of the slight concavity; the petiole is 2-15 mm long and is flattened and fluffed.

Because of its high medicinal value, it is widely used in the pharmaceutical industry. The existing combine harvester only aims at soybeans and rice generally, obviously, the stem of the Mesona chinensis Benth is 15-100 cm higher than the soybeans and the rice, the planting environment of the Mesona chinensis Benth needs to be in soil with certain humidity, the rootstocks are deeper, meanwhile, the existing combine harvester has the condition of low industrialization degree, and the industrial harvesting and separation of the Mesona chinensis Benth cannot be carried out at the same time; in addition, the existing harvester has insufficient pertinence to the Mesona chinensis Benth, and can not effectively pull up the Mesona chinensis Benth for harvesting. Therefore, a mobile Mesona chinensis harvester is provided.

Disclosure of Invention

In order to solve the defects of the prior art, the invention aims to provide a mobile Mesona chinensis harvester, which comprises a carrier, a leaf collecting box and a water tank which are arranged on the carrier, a conveying device, a harvesting device which is beneficial to pulling out Mesona chinensis, and a root shearing device which is beneficial to separating roots and leaves of the Mesona chinensis; conveyer passes through the detachable installation on the carrier of mounting bracket, and wherein, conveyer includes two rows of a plurality of roller, connects through rubber extrusion conveyer belt between the roller, and the roller carries out power operation through the carrier power supply, and the surface covering of roller has rubber elastic layer.

Through the technical scheme, the conveying device is detachably arranged on the carrier through the mounting frame, and the detachable conveying device can be connected with the carrier through bolts; the immortal grass can enter between the two rows of closely-arranged rubber extrusion conveyor belts through the two rows of closely-arranged rubber extrusion conveyor belts and is elastically extruded by the rubber extrusion conveyor belts, so that the immortal grass can be easily pulled out from wet land; the mode of conveying the Mesona chinensis by the rubber extrusion conveying belt is suitable for the height and planting environment of Mesona chinensis; moreover, the surface of the roll shaft is covered with the rubber elastic layer, so that the elasticity of the material can be fully utilized, and the Mesona chinensis can be fully extruded and harvested for transportation.

As for the mobile Mesona chinensis harvester, a plurality of clamping blocks are fixedly connected to the surface of the rubber extrusion conveying belt.

Through above-mentioned technical scheme, the setting up of fixture block can increase celestial grass and rubber extrusion conveyer belt's adhesive force, lets celestial grass be located between the adjacent fixture block, makes things convenient for the efficient to transport celestial grass more.

As for the mobile Mesona chinensis harvester, the carrier is an agricultural tractor.

Through the technical scheme, the device is mounted with the carrier in a diversified manner, and is suitable for the development of modern agriculture.

As for the mobile Mesona chinensis harvester, the harvesting device comprises a pair of special soil rubbing knife boards, the mutually adjacent side walls of the two special soil rubbing knife boards are fixedly connected with screws, the two screws are inserted into the same screw cap through common threads, and the screw cap is arranged on the mounting frame.

Through the technical scheme, the top of the soil rubbing knife plate is in a pointed shape, so that the soil of the root part of the Mesona chinensis Benth can be separated, and the Mesona chinensis Benth can be pulled out by the extrusion of the conveying device more easily; and the distance between the two special soil rubbing knife boards can be changed through the screw and the screw cap, so that the harvesting device can be suitable for Mesona chinensis rhizomes in different growth periods, and the Mesona chinensis rhizomes in different growth periods are different in size and width.

As for the mobile Mesona chinensis harvester, a water spraying pipeline connected with a water tank is arranged in a special soil rubbing knife plate.

Through above-mentioned technical scheme, when waiting to reap the soil of celestial grass because weather variation leads to the drying, is difficult to when extracting through conveyer, through the spray pipe, to waiting to reap ground water spray humidification simultaneously, let celestial grass be reaped easily and extract.

As for the mobile Mesona chinensis harvester, a colter fixedly connected with the rotating end of a first motor is arranged in a special soil rubbing knife plate.

Through the technical scheme, the rotating coulter can loosen soil to the land to be harvested at the same time, so that the Mesona chinensis Benth can be harvested and pulled out more easily.

The harvesting device comprises a first inserted link, the upper end of the first inserted link is fixedly connected with an installation frame, the lower end of the first inserted link is movably inserted in an installation cylinder, the first inserted link is positioned on the side wall in the installation cylinder and is fixedly connected with one end of a second inserted link, the other end of the second inserted link penetrates through a strip-shaped through hole and a special clamping hole which are sequentially formed in the side wall of the installation cylinder in a sliding mode, and a triangular clamping block corresponding to the special clamping hole is sleeved on the other end of the second inserted link in a sliding mode; the nut is fixedly connected with the mounting cylinder.

Through the technical scheme, according to the Mesona chinensis Benth of different growth cycles and lands to be harvested in different soil environments, the distance between the harvesting device and the soil can be controlled according to conditions, so that the harvesting position of the harvesting device is matched with the root and stem parts of the Mesona chinensis Benth, and diversified conditions can be adapted; when the height of the harvesting device needs to be adjusted, the triangular clamping block is pulled out, the second inserting rod moves to a proper position in the strip-shaped through hole, at the moment, the triangular clamping block is sleeved on the second inserting rod, and the triangular clamping block is located in a new specially-made clamping hole, so that the first inserting rod is fixed, and the height distance of the harvesting device is conveniently and quickly adjusted.

The mobile Mesona chinensis harvester also comprises a root shearing device, wherein the root shearing device comprises a support, the support is detachably connected with an installation frame, two groups of mutually symmetrical cutting knife boards are sleeved on the support in a sliding mode, a limiting block for limiting the sliding distance of the cutting knife boards is fixedly connected to the support, the two cutting knife boards are connected through an elastic telescopic device, and the elastic telescopic device is composed of a sliding rod, a sleeve and a built-in spring; an elliptical extrusion wheel is movably connected between the two cutting knife boards in an extrusion manner, and the center of the elliptical extrusion wheel is fixedly connected with the output end of a second motor.

Through the technical scheme, when the Mesona chinensis Benth is conveyed to the upper part of the root collecting device, the two cutting knife boards can move close to and away from each other periodically under the limiting of the bracket, so that the rootstalk parts of the Mesona chinensis Benth conveyed and moved by the conveying device are cut off, and the Mesona chinensis Benth is harvested and separated industrially efficiently; the rotation of the elliptical extrusion wheel can extrude the two cutting knife boards periodically, so that the two cutting knife boards are close to and far away from the moving periodically, and shearing is realized.

The mobile Mesona chinensis harvester also comprises a root collecting device, wherein the root collecting device comprises a supporting rod fixedly connected with a driving wheel bearing part of the carrier, one end of the supporting rod is connected with one end of a steel wire, the other end of the steel wire penetrates through a soil discharge hole formed in the bottom of the box body and extends into the box body, the other end of the steel wire is connected to the lower side of the filter screen, the box body is installed on the carrier, and the filter screen is connected with the box body through a plurality of springs in an equidistant array.

Through the technical scheme, root collection device includes the branch with carrier driving wheel bearing part fixed connection, the carrier has cross-country shock-absorbing capacity for the agricultural, because carrier driving wheel bearing part does not subtract shock attenuation in the vehicle industry, branch is connected at carrier driving wheel bearing part, and the main part installation of box and carrier, then the box has been through the shock attenuation processing, thereby branch is different with the vibration range of box, thereby can be at the in-process that the carrier traveles, can relative displacement between branch and the box, the filter screen is dragged to the steel wire, let the celestial grass rhizome that falls in the box shake on the filter screen, and then earth on the rhizome portion with celestial grass is preliminary, earth falls down through the filter screen, celestial grass rhizome portion has been cleaned through the reuse of the energy to a certain extent, has very strong practicality.

The invention has the following beneficial effects:

1. the immortal grass can enter between the two rows of closely-arranged rubber extrusion conveyor belts through the two rows of closely-arranged rubber extrusion conveyor belts and is elastically extruded by the rubber extrusion conveyor belts, so that the immortal grass can be easily pulled out from wet land; the mode of conveying the Mesona chinensis Benth by the rubber-like extrusion conveying belt is suitable for the height and planting environment of Mesona chinensis Benth; moreover, the surface of the roll shaft is covered with the rubber elastic layer, so that the elasticity of the material can be fully utilized, and the Mesona chinensis can be fully extruded and harvested for transportation;

2. the immortal grass is positioned between the adjacent clamping blocks, so that the immortal grass is more conveniently and efficiently transported;

3. the harvesting device can be suitable for Mesona chinensis Benth rhizomes in different growth periods, and the Mesona chinensis Benth rhizomes in different growth periods have different sizes and widths;

4. the mesona chinensis benth is easy to be harvested and pulled out;

5. according to the Mesona chinensis Benth of different growth cycles, the distance between the harvesting device and the soil can be controlled according to the conditions of the land to be harvested in different soil environments, so that the harvesting position of the harvesting device is matched with the root and stem part of the Mesona chinensis Benth, and the condition of diversification can be adapted;

6. the leaves and the rhizomes of the mesona chinensis benth are harvested and separated, and the industrialization degree is high.

Drawings

FIG. 1 is a schematic structural diagram according to the present invention;

fig. 2 is a schematic structural diagram of a transmission device according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a harvesting device according to an embodiment of the present invention.

Fig. 4 is a schematic perspective view of a special soil rubbing knife plate according to an embodiment of the present invention.

Fig. 5 is a schematic view of the installation of the harvesting device according to the embodiment of the invention.

Fig. 6 is a schematic perspective view illustrating a second rod and a triangular fixture block fixedly connected according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a root shearing device according to an embodiment of the present invention.

Fig. 8 is a schematic structural view of a root collecting device according to an embodiment of the present invention and a sectional view a-a thereof.

In the figure: the device comprises a carrier 1, a conveying device 2, a mounting frame 3, a harvesting device 4, a leaf part collecting box 5, a water tank 6, a root shearing device 7 and a root collecting device 8; a roller shaft 201, a rubber elastic layer 202, a rubber extrusion conveyor belt 203 and a fixture block 204; a special soil rubbing knife plate 401, an installation cylinder 402, a first inserted link 403, a second inserted link 404, a strip-shaped through hole 405, a special clamping hole 406, a triangular clamping block 407, a screw cap 408, a screw 409, a water spraying pipeline 410, a first motor 411 and a coulter 412; a cutting knife plate 701, a bracket 702, a limiting block 703, an elastic expansion device 704 and an elliptical extrusion wheel 705; support rod 801, steel wire 802, filter screen 803, box 804 and spring 805.

Detailed Description

To further understand the structure, characteristics and other objects of the present invention, the following detailed description is given with reference to the accompanying preferred embodiments, which are only used to illustrate the technical solutions of the present invention and are not to limit the present invention.

As shown in fig. 1, a mobile Mesona chinensis harvester is provided, which comprises a carrier 1, a leaf collecting box 5 and a water tank 6 which are arranged on the carrier 1, a conveying device 2, a harvesting device 4 which is beneficial to pulling out Mesona chinensis, and a root shearing device 7 which is beneficial to separating roots and leaves of Mesona chinensis; the conveying device 2 is detachably mounted on the carrier 1 through a mounting frame 3, wherein, as shown in fig. 2, the conveying device 2 comprises two rows of a plurality of roller shafts 201, the roller shafts 201 are connected through a rubber extrusion conveyor belt 203, the roller shafts 201 are powered by a power source of the carrier 1, and the surfaces of the roller shafts 201 are covered with rubber elastic layers 202.

The conveying device 2 is detachably arranged on the carrier 1 through the mounting frame 3, and the detachable type can be in bolt connection; the immortal grass can enter between the two rows of closely-arranged rubber extrusion conveyor belts 203 through the two rows of closely-arranged rubber extrusion conveyor belts 203 and is elastically extruded by the rubber extrusion conveyor belts 203, so that the immortal grass can be easily pulled out of wet land; the mode of conveying the Mesona chinensis by the rubber extrusion conveying belt 203 is suitable for the height and planting environment of Mesona chinensis; moreover, the surface of the roller shaft 201 is covered with the rubber elastic layer 202, so that the elasticity of the material can be fully utilized, and the Mesona chinensis can be fully squeezed and harvested for transportation.

As an embodiment of the present invention, a plurality of blocks 204 are fixedly connected to the surface of the rubber extrusion conveyor belt 203. The fixture block 204 can increase the adhesive force of celestial grass and rubber extrusion conveyer belt 203, lets celestial grass be located between the adjacent fixture block 204, and convenient efficient transports celestial grass more.

As an embodiment of the present invention, the vehicle 1 is an agricultural tractor. Therefore, the agricultural vehicle can be mounted with the carrier 1 in a variety, and is suitable for the development of modern agriculture.

As shown in fig. 3, as an embodiment of the present invention, the harvesting device 4 includes a pair of special soil rubbing boards 401, two adjacent side walls of the special soil rubbing boards 401 are fixedly connected with screws 409, the two screws 409 are jointly screwed into a same screw cap 408, and the screw cap 408 is mounted on the mounting frame 3.

As shown in fig. 4, the top of the soil rolling blade 401 is pointed, which is beneficial to separating the soil at the root of Mesona chinensis Benth, so that Mesona chinensis Benth can be more easily pulled out by the squeezing of the conveying device 2; moreover, the distance between the two special soil rubbing knife boards 401 can be changed through the screw 409 and the screw cap 408, so that the harvesting device 4 can be suitable for Mesona chinensis roots in different growth periods, and the Mesona chinensis roots in different growth periods are different in size and width.

As an embodiment of the present invention, a water spraying pipe 410 connected to the water tank 6 is opened in the special soil rubbing knife plate 401. When the soil to be harvested is dry due to weather changes and is difficult to pull out through the conveying device 2, water is sprayed to the land to be harvested through the water spraying pipeline 410 for humidification, so that the Mesona chinensis can be easily harvested and pulled out.

As an embodiment of the present invention, a coulter 412 fixedly connected to a rotating end of the first motor 411 is installed in the special soil rubbing knife plate 401. Soil is loosened towards the land to be harvested by the rotating coulter 412, so that the Mesona chinensis Benth is easier to harvest and pull out.

As shown in fig. 5, as an embodiment of the present invention, the harvesting device 4 includes a first inserting rod 403, an upper end of the first inserting rod 403 is fixedly connected with the mounting frame 3, a lower end of the first inserting rod 403 is movably inserted into the mounting tube 402, the first inserting rod 403 is located at one end of a second inserting rod 404 fixedly connected to a side wall of the mounting tube 402, and the other end of the second inserting rod 404 slidably penetrates through a bar-shaped through hole 405 and a special clamping hole 406 sequentially formed in the side wall of the mounting tube 402, and is slidably sleeved with a triangular clamping block 407 corresponding to the special clamping hole 406; the nut 408 is fixedly coupled to the mounting cylinder 402. According to the Mesona chinensis Benth of different growth cycles, the distance between the harvesting device 4 and the soil can be controlled according to the conditions of the land to be harvested in different soil environments, so that the harvesting position of the harvesting device 4 is matched with the root and stem part of the Mesona chinensis Benth, and the condition of diversification can be adapted; as shown in fig. 6, when the height of the harvesting device 4 needs to be adjusted, the triangular fixture block 407 is pulled out, the second insertion rod 404 moves to a proper position in the strip-shaped through hole 405, at this time, the triangular fixture block 407 is sleeved on the second insertion rod 404, and the triangular fixture block 407 is located in a new specially-made fixture hole 406, so that the first insertion rod 403 is fixed, and the height distance of the harvesting device 4 is adjusted conveniently and quickly.

As an embodiment of the present invention, as shown in fig. 7, the present invention further includes a root shearing apparatus 7, wherein the root shearing apparatus 7 includes a support 702, the support 702 is detachably connected to the mounting frame 1, two sets of cutting blades 701 that are symmetrical to each other are slidably sleeved on the support 702, a limiting block 703 that limits a sliding distance of the cutting blades 701 is fixedly connected to the support 702, the two cutting blades 701 are connected by an elastic expansion apparatus 704, and the elastic expansion apparatus 704 is composed of a sliding rod, a sleeve and a built-in spring; an elliptical extrusion wheel 705 is movably connected between the two cutting knife boards 701 in an extrusion manner, and the center of the elliptical extrusion wheel 705 is fixedly connected with the output end of a second motor.

When the immortal grass is conveyed to the upper part of the root collecting device 8, the two cutting blades 701 can move periodically to approach and separate from each other under the limit of the bracket 702, so that the rootstalk part of the immortal grass conveyed and moved by the conveying device 2 is cut off, and the immortal grass is efficiently and industrially harvested and separated; the rotation of the elliptical extrusion wheel 705 can extrude the two cutting knife boards 701 periodically, so that the two cutting knife boards 701 move close to and away from each other periodically, and therefore shearing is achieved.

As an embodiment of the present invention, as shown in fig. 8, the present invention further includes a root collecting device 8, wherein the root collecting device 8 includes a supporting rod 801 fixedly connected to a driving wheel bearing portion of the carrier 1, one end of the supporting rod 801 is connected to one end of a steel wire 802, the other end of the steel wire 802 extends to the inside of the box 804 through a soil discharge port formed at the bottom of the box 804, and is connected to the lower side of the filter screen 803, the box 804 is mounted on the carrier 1, and the filter screen 803 is connected to the box 804 through a plurality of springs 805 arranged in an equidistant array.

Root collection device 8 includes bearing portion fixed connection's branch 801 with carrier 1 action wheel, agricultural carrier 1 has cross-country shock-absorbing capacity, because carrier 1 action wheel bearing portion does not subtract shock attenuation in the vehicle industry, branch 801 is connected at carrier 1 action wheel bearing portion, and box 804 is installed with the main part of carrier 1, then box 804 has been through shock attenuation processing, thereby branch 801 is different with the vibration range of box 804, thereby can be at the in-process that carrier 1 traveles, can relative displacement between branch 801 and the box 804, filter screen 803 is dragged to steel wire 802, let the celestial grass rhizome that falls in box 804 shake on filter screen 803, and then tentatively with the earth on the rhizome portion of celestial grass, earth falls down through filter screen 803, the root and stem portion of celestial grass has been cleaned through the reuse of the energy to a certain extent, have very strong practicality.

It should be noted that the above summary and the detailed description are intended to demonstrate the practical application of the technical solutions provided by the present invention, and should not be construed as limiting the scope of the present invention. Various modifications, equivalent substitutions, or improvements may be made by those skilled in the art within the spirit and principles of the invention. The scope of the invention is to be determined by the appended claims.

Claims

1. Portable celestial grass harvester, including carrier (1) and install leaf collecting box (5) and water tank (6) on carrier (1), its characterized in that: also comprises a conveying device (2), a harvesting device (4) which is beneficial to pulling out the Mesona chinensis Benth and a root shearing device (7) which is beneficial to separating the roots and the leaves of the Mesona chinensis Benth; conveyer (2) pass through mounting bracket (3) detachable the installation on carrier (1), wherein, conveyer (2) include two rows of a plurality of roller (201), connect through rubber extrusion conveyer belt (203) between roller (201), roller (201) carry out power operation through carrier (1) power supply, the surface covering of roller (201) has rubber elasticity layer (202).

2. The mobile Mesona procumbens harvester of claim 1, wherein: the surface of the rubber extrusion conveyor belt (203) is fixedly connected with a plurality of clamping blocks (204).

3. The mobile Mesona procumbens harvester of claim 1, wherein: the carrier (1) is an agricultural tractor.

4. The mobile Mesona procumbens harvester of claim 1, wherein: the harvesting device (4) comprises a pair of specially-made soil rubbing knife boards (401), the side walls, close to each other, of the two specially-made soil rubbing knife boards (401) are fixedly connected with screws (409), the two screws (409) are inserted into the same screw cap (408) in a common threaded mode, and the screw cap (408) is installed on the installation frame (3).

5. The mobile Mesona procumbens harvester of claim 4, wherein: a water spraying pipeline (410) connected with the water tank (6) is arranged in the special soil rubbing knife plate (401).

6. The mobile Mesona procumbens harvester of claim 4, wherein: a coulter (412) fixedly connected with the rotating end of the first motor (411) is arranged in the special soil rubbing knife plate (401).

7. The mobile Mesona procumbens harvester of claim 4, wherein: the harvesting device (4) comprises a first inserted link (403), the upper end of the first inserted link (403) is fixedly connected with the mounting frame (3), the lower end of the first inserted link (403) is movably inserted into the mounting cylinder (402), the side wall of the first inserted link (403) in the mounting cylinder (402) is fixedly connected with one end of a second inserted link (404), the other end of the second inserted link (404) penetrates through a strip-shaped through hole (405) and a special clamping hole (406) which are sequentially formed in the side wall of the mounting cylinder (402) in a sliding mode, and a triangular clamping block (407) corresponding to the special clamping hole (406) is sleeved in the sliding mode; the nut (408) is fixedly connected with the mounting cylinder (402).

8. The mobile Mesona procumbens harvester of claim 1, wherein:

the root shearing device (7) comprises a support (702), the support (702) is detachably connected with an installation frame (1), two groups of mutually symmetrical cutting knife boards (701) are sleeved on the support (702) in a sliding mode, a limiting block (703) for limiting the sliding distance of the cutting knife boards (701) is fixedly connected to the support (702), the two cutting knife boards (701) are connected through an elastic telescopic device (704), and the elastic telescopic device (704) is composed of a sliding rod, a sleeve and a built-in spring;

an elliptical extrusion wheel (705) is movably connected between the two cutting knife boards (701) in an extrusion mode, and the center of the elliptical extrusion wheel (705) is fixedly connected with the output end of a second motor.

9. The mobile Mesona procumbens harvester of claim 8, wherein: still include root collection device (8), wherein, root collection device (8) include with carrier (1) action wheel bearing portion fixed connection's branch (801), the one end of branch (801) is connected with the one end of steel wire (802), the other end of steel wire (802) runs through the inside that the earth discharge gate that box (804) bottom was seted up extends to box (804), and connect the downside at filter screen (803), box (804) are installed on carrier (1), filter screen (803) are connected with box (804) through spring (805) of a plurality of equidistance arrays.