CN210862026U - Macro-fungus collecting and drying solar device - Google Patents

Abstract

The utility model discloses a large fungus collecting and drying solar device, which comprises a box body, wherein the interior of the box body is divided into an electricity storage area, a working area and a drying area from bottom to top; a partition plate is arranged between the power storage area and the working area, and a heating plate is arranged between the working area and the drying area; a USB charging port is arranged on the side wall of the electric storage area; the side wall of the working area is provided with a plurality of air inlet holes and adjusting holes, the air inlet holes are provided with air adjusting plates, and the inside of the working area comprises a filter plate, a fan and a support; the drying area is provided with an air outlet hole and a box door, the interior of the drying area is divided into a plurality of specimen bins, and the box door is provided with a connecting rod; the end of the connecting rod, which is far away from the box door, is hinged with a solar power generation plate; the specimen bin is internally provided with an adjusting groove, an adjusting plate, a moving groove, a partition plate, a positioning groove, a positioning slide block, a positioning rod and a support rod. The device provides the storage space of fungi sample, dries the sample in field and indoor, forms air passage, makes things convenient for the circulation of air, the nimble amount of wind and the control stoving temperature that get into the drying zone of controlling.

Description

Macro-fungus collecting and drying solar device

Technical Field

The utility model relates to a macro fungi gathers stoving technical field, concretely relates to macro fungi gathers stoving solar device.

Background

The specimen is a plant, animal, mineral and other real object, different processing methods are selected according to different types for long-term preservation and original appearance is kept as much as possible, and the specimen is used for exhibition, demonstration, education, identification, examination and other researches, so the collection and preservation of the specimen have important significance; in the current collection and preservation of specimens, as the specimens of fungi (such as fungi of mushrooms and the like) are easy to rot during the collection and preservation of large fungi, in the process of collecting the specimens in the field, the collected specimens are difficult to dry on site to prevent the specimens from being rotten due to the limitation of the environment and other conditions, the collected specimens are difficult to store, the specimens are difficult to stay in the same place for a long time during the work to provide the time required for drying the specimens, and the heat energy required for drying is difficult to provide in the field.

In summary, the following problems exist in the field collection and drying preservation of fungus specimens: the fungus specimen is easy to rot and difficult to store, and the heat energy and the time required for drying the fungus specimen are difficult to provide.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve above-mentioned problem, designed a macro fungi collection stoving solar device, the device can provide the storage space of fungi sample in the field, can use solar energy to provide heat energy for the stoving of fungi sample, and the device portable, remove the in-process also can dry the sample at the staff, save time.

In order to solve the above technical problem and achieve the above technical effect, the utility model discloses a following technical content realizes:

a large fungus collecting and drying solar device comprises a box body, wherein the box body is a cuboid, and the interior of the box body is divided into an electricity storage area, a working area and a drying area from bottom to top; a partition plate is arranged between the power storage area and the working area, and a heating plate is arranged between the working area and the drying area; the storage battery, the controller and the temperature controller are arranged in the storage battery area, and a USB charging port is formed in the side wall of the storage battery area; the side wall of the working area is provided with a plurality of air inlet holes and adjusting holes, the adjusting holes are positioned in the middle of the air inlet holes, air adjusting plates are arranged at the air inlet holes, and the working area internally comprises a filter plate, a fan and a support; the air adjusting plate is provided with an adjusting button, and the adjusting button is arranged in the adjusting hole; the filter plate is arranged close to the partition plate and positioned above the air inlet holes; the support is cylindrical, one end of the support is rotatably connected with the partition plate, and the other end of the support penetrates through the filter plate and is connected with the fan; the fan is arranged between the filter plate and the heating plate through a support; the heating plate is provided with a vent hole;

an air outlet hole is formed in the end face, perpendicular to the axis, of the drying area, an air adjusting plate is arranged at the air outlet hole, a box door is arranged on the end face, parallel to the axis, of the drying area, the interior of the box door is divided into a plurality of specimen bins, a temperature sensor is arranged in the box door, a sliding groove is formed in the inner wall, adjacent to the box door, of the drying area, the box door is hinged to the box body, a handrail is arranged at one end, far away from the end connected with the box body; the connecting rod is hinged with the box door, and the end far away from the box door is hinged with the solar power generation plate; the specimen bin is a rectangular drawer, two side faces of the specimen bin are provided with sliding rails arranged in sliding grooves, the inner wall of the specimen bin is symmetrically provided with adjusting grooves, a plurality of adjusting plates are arranged in the adjusting grooves, and the center of one end face of each adjusting plate is provided with a moving groove; a plurality of partition plates are respectively arranged between the adjusting plates, the partition plates are arranged in the moving grooves, and a plurality of accommodating cavities are formed in the specimen bin by the adjusting plates and the partition plates; the partition plate is provided with a positioning groove, a plurality of positioning sliding blocks are arranged in the positioning groove, a positioning rod is hinged to each positioning sliding block, and one end, away from each positioning sliding block, of each positioning rod is hinged to a supporting rod.

Furthermore, the air inlet hole and the adjusting hole are symmetrically arranged on two sides of the box body.

Furthermore, the air adjusting plate is provided with air adjusting holes the number of which is consistent with that of the air inlet holes.

Further, the adjusting groove is arranged at the long edge end of the specimen bin; the adjusting plate is parallel to the short side end of the specimen bin; the moving groove is parallel to the short side end of the specimen bin; the partition plate is parallel to the long edge end of the specimen bin; the constant head tank is on a parallel with the long limit end in sample storehouse.

Furthermore, a handle is arranged on the end face, perpendicular to the axis, of the drying area, and a double-shoulder strap is arranged on the end face, far away from the box door.

Further, the specimen bin is of a three-layer structure, and the middle layer is a foam layer.

Furthermore, the length of the partition plate, the positioning rod and the support rod can be adjusted in a telescopic mode.

The utility model has the advantages that: the device can provide the storage space of fungi sample in the field, can utilize solar energy to dry to the plant sample in the field, also can dry the sample at indoor use power, can form air passage with whole drying area, makes things convenient for the circulation of air, and the moisture of discharging in the stoving process can nimble control get into the amount of wind and the control stoving temperature in drying area. And the device is portable, also can dry the sample at the staff removal in-process, saves time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of a large fungus collecting and drying solar device of the present invention;

FIG. 2 is a schematic structural view of a solar panel of the solar apparatus for collecting and drying macro fungi of the present invention;

FIG. 3 is a schematic view of an assembly structure of the large fungus collecting and drying solar device of the present invention;

FIG. 4 is a schematic structural view of a specimen chamber of the large fungus collecting and drying solar device of the present invention;

FIG. 5 is a schematic structural view of an air adjusting plate of the solar device for collecting and drying macro fungi of the present invention;

FIG. 6 is a schematic structural view of an adjusting plate and a dividing plate of the large fungus collecting and drying solar device of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1-box body, 101-air inlet hole, 102-air outlet hole, 103-adjusting hole, 104-handle, 106-shoulder strap, 107-air adjusting plate, 108-air adjusting hole, 2-solar power generation plate, 3-connecting rod, 4-box door, 401-groove, 5-electricity storage area, 6-working area, 601-filter plate, 602-fan, 603-heating plate, 604-separating plate, 605-pillar, 7-drying area, 701-specimen bin, 702-slide rail, 703-adjusting groove, 704-adjusting plate, 705-separating plate, 706-positioning groove, 707-positioning slide block, 708-positioning rod, 709-support rod, 710-moving groove and 711-containing cavity.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-6, the large fungus collecting and drying solar device comprises a box body 1, wherein the box body 1 is a cuboid, and is internally divided into an electricity storage area 5, a working area 6 and a drying area 7 from bottom to top; a partition plate 604 is arranged between the power storage area 5 and the working area 6, and a heating plate 603 is arranged between the working area 6 and the drying area 7; the power storage area 5 comprises a storage battery, a controller and a temperature controller, and a USB charging port is arranged on the side wall of the power storage area 5; a plurality of air inlet holes 101 and adjusting holes 103 are formed in the side wall of the working area 6, the adjusting holes 103 are located in the middle of the air inlet holes 101, an air adjusting plate 107 is arranged at the air inlet holes 101, and a filter plate 601, a fan 602 and a support column 605 are arranged inside the working area 6; the air adjusting plate 107 is provided with an adjusting button, and the adjusting button is arranged in the adjusting hole 103; the filter plate 601 is arranged close to the partition plate 604 and above the air inlet holes 101; the pillar 605 is cylindrical, one end of the pillar is rotatably connected with the partition plate 604, and the other end of the pillar passes through the filter plate 601 and is connected with the fan 602; the fan 602 is installed between the filter plate 601 and the heating plate 603 through a support column 605; the heating plate 603 is provided with a vent hole; an air outlet 102 is formed in the end face, perpendicular to the axis, of the drying zone 7, an air adjusting plate 107 is arranged at the air outlet 102, a box door 4 is arranged on the end face, parallel to the axis, of the drying zone 7, the interior of the box door 4 is divided into a plurality of specimen layers 701 and is provided with a temperature sensor, a sliding groove is formed in the inner wall, adjacent to the box door 4, of the drying zone 7, the box door 4 is hinged to the box body 1, a handrail is arranged at one end, far away from the end connected with the box body 1, a groove 401 is formed in the; the connecting rod 3 is hinged with the box door 4, and the end far away from the box door 4 is hinged with the solar power generation panel 2; the specimen bin 701 is a rectangular drawer, two side faces of the specimen bin are provided with sliding rails 702 arranged in sliding grooves, the inner wall of the specimen bin 701 is symmetrically provided with adjusting grooves 703, a plurality of adjusting plates 704 are arranged in the adjusting grooves 703, and the center of one end face of each adjusting plate 704 is provided with a moving groove 710; a plurality of separation plates 705 are respectively arranged between the adjustment plates 704, the separation plates 705 are arranged in the moving grooves 710, and a plurality of accommodating cavities 711 are formed in the specimen bin 701 by the adjustment plates 704 and the separation plates 705; a positioning groove 706 is arranged on the partition plate 705, a plurality of positioning sliding blocks 707 are arranged in the positioning groove 706, positioning rods 708 are hinged on the positioning sliding blocks 707, and a supporting rod 709 is hinged at one end of each positioning rod 708 far away from the corresponding positioning sliding block 707.

The air inlet 101 and the adjusting hole 103 are symmetrically arranged on two sides of the box body 1.

The air adjusting plate 107 is provided with air adjusting holes 108 the number of which is matched with that of the air inlet holes 101.

The adjusting groove 703 is arranged at the long side end of the specimen bin 701; the adjusting plate 704 is parallel to the short side end of the specimen bin 701; the moving slot 710 is parallel to the short side end of the specimen bin 710; the separation plate 705 is parallel to the long edge end of the specimen bin 701; the positioning slot 706 is parallel to the long side end of the specimen chamber 701.

The end surface of the drying area 7 perpendicular to the axis is provided with a handle 104, and the end surface far away from the box door 4 is provided with a double-shoulder strap 106.

The specimen bin 701 is of a three-layer structure, and the middle layer is a foam layer.

The separation plate 705, the positioning rod 708 and the support rod 709 can be adjusted in length in a telescopic manner.

For a clearer description of the present invention, the following description is made with reference to specific embodiments:

examples

The utility model relates to a concrete application when macrofungi gathers stoving solar device uses does: when the collected fungi are stored, the box door is opened to pull out the specimen bin, the slide rail moves along the slide groove, the fixture block on the slide rail can prevent the specimen bin from being completely pulled out of the box body, the slide adjusting plate moves to a proper position along the adjusting groove according to the size and the type of the collected fungi, the slide separating plate moves to a proper position along the moving groove, the collected fungi are placed into the specimen bin, the positioning rod is used for positioning the placed fungi under the driving of the positioning slide block, and when the positioning rod is parallel to the short edge end of the specimen bin and the supporting rod is parallel to the positioning rod, the positioning rod presses the fungi from top to bottom; when the locating rod is perpendicular with the short edge end in sample storehouse, the die-pin is perpendicular with the locating rod and the die-pin is located the bottom in sample storehouse, provides the holding power to the fungi both sides. The size of chamber is held in accessible removal adjusting plate, division board position and the length adjustment of adjusting the division board.

In the circuit connection, a storage battery is connected with a controller (ZXRC-10A), a solar power generation panel (a single crystal 200W solar panel) is connected with the controller, a temperature controller is connected with the controller, a heating panel (a Fahrenheit outer hanging rubber heating panel) is connected with the temperature controller, a temperature sensor (PT100 platinum thermal resistance sensor) is connected with the temperature controller (SONGLE SRD-05VDC-SL-C), and a USB charging port is connected with the storage battery.

When heating is needed in the field, the solar power generation panel on the box door is lifted, and a proper angle is found by adjusting the positions of the solar power generation panel and the connecting rod and adjusting the positions of the connecting rod and the box door, so that the solar power generation panel can fully absorb light energy and convert the light energy into electric energy to be stored in the storage battery; the power switch controls the temperature controller, the temperature sensor and the heating plate to work, the fan switch controls the working state of the fan, when only heating and drying are needed, the power switch is turned on, the temperature of the temperature controller is adjusted, the heating plate works to heat the interior of the box body and dry the sample; the air inlet and the air outlet on the box body form an air channel of the box body, the air flow rate entering the box body can be controlled by adjusting the air adjusting plate on the side wall of the box body and the air adjusting plate on the end surface of the drying zone of the box body, which is vertical to the axis, wherein when the air adjusting plate on the side wall of the box body is completely superposed with the air inlet and the air adjusting plate on the end surface of the drying zone, which is vertical to the axis, is completely superposed with the air outlet, the air speed is maximum, when the air adjusting plate on the side wall of the box body is completely staggered with the air inlet and the air adjusting plate on the end surface of the drying zone, which is vertical to the axis, is completely staggered with the air outlet, no air enters the box; fan work when the fan switch is opened to the accessible, circulation speed with higher speed air, the dust that mix with in the filter filterable air, the intermediate layer in the sample storehouse uses the foam can cushion the vibration of external transmission at the removal in-process, reduces the harm to the sample, also can strengthen the thermal insulation performance in sample storehouse in the heating process.

When there is the condition of power in indoor, USB on the joinable box hole of charging provides the power for the box, and is unanimous with the operation when using solar energy to dry in the field to the stoving of the inside sample of box, no longer gives unnecessary details.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (8)

1. The utility model provides a large-scale fungi gathers stoving solar device, includes the box, its characterized in that: the box body is a cuboid, and the interior of the box body is divided into an electricity storage area, a working area and a drying area from bottom to top; a partition plate is arranged between the power storage area and the working area, and a heating plate is arranged between the working area and the drying area; the storage battery, the controller and the temperature controller are arranged in the storage battery area, and a USB charging port is formed in the side wall of the storage battery area; the side wall of the working area is provided with a plurality of air inlet holes and adjusting holes, the adjusting holes are positioned in the middle of the air inlet holes, air adjusting plates are arranged at the air inlet holes, and the working area internally comprises a filter plate, a fan and a support; the air adjusting plate is provided with an adjusting button, and the adjusting button is arranged in the adjusting hole; the filter plate is arranged close to the partition plate and positioned above the air inlet holes; the support is cylindrical, one end of the support is rotatably connected with the partition plate, and the other end of the support penetrates through the filter plate and is connected with the fan; the fan is arranged between the filter plate and the heating plate through a support; the heating plate is provided with a vent hole;

an air outlet hole is formed in the end face, perpendicular to the axis, of the drying area, an air adjusting plate is arranged at the air outlet hole, a box door is arranged on the end face, parallel to the axis, of the drying area, the interior of the box door is divided into a plurality of specimen bins, a temperature sensor is arranged in the box door, a sliding groove is formed in the inner wall, adjacent to the box door, of the drying area, the box door is hinged to the box body, a handrail is arranged at one end, far away from the end connected with the box body; the connecting rod is hinged with the box door, and the end far away from the box door is hinged with the solar power generation plate; the specimen bin is a rectangular drawer, two side faces of the specimen bin are provided with sliding rails arranged in sliding grooves, the inner wall of the specimen bin is symmetrically provided with adjusting grooves, a plurality of adjusting plates are arranged in the adjusting grooves, and the center of one end face of each adjusting plate is provided with a moving groove; a plurality of partition plates are respectively arranged between the adjusting plates, the partition plates are arranged in the moving grooves, and a plurality of accommodating cavities are formed in the specimen bin by the adjusting plates and the partition plates; the partition plate is provided with a positioning groove, a plurality of positioning sliding blocks are arranged in the positioning groove, a positioning rod is hinged to each positioning sliding block, and one end, away from each positioning sliding block, of each positioning rod is hinged to a supporting rod.

2. The large fungus collecting and drying solar device according to claim 1, wherein the solar device comprises: the air inlet hole and the adjusting hole are symmetrically arranged on two sides of the box body.

3. The large fungus collecting and drying solar device according to claim 1, wherein the solar device comprises: and the air adjusting plate is provided with air adjusting holes the number of which is matched with that of the air inlet holes.

4. The large fungus collecting and drying solar device according to claim 1, wherein the solar device comprises: the adjusting groove is arranged at the long edge end of the specimen bin; the adjusting plate is parallel to the short side end of the specimen bin; the moving groove is parallel to the short side end of the specimen bin; the partition plate is parallel to the long edge end of the specimen bin; the constant head tank is on a parallel with the long limit end in sample storehouse.

5. The large fungus collecting and drying solar device according to claim 1, wherein the solar device comprises: the end face of the drying area, which is perpendicular to the axis, is provided with a handle, and the end face, which is far away from the box door, is provided with a double-shoulder strap.

6. The large fungus collecting and drying solar device according to claim 1, wherein the solar device comprises: the end of the sliding rail far away from the box door is provided with a clamping block.

7. The large fungus collecting and drying solar device according to claim 1, wherein the solar device comprises: the specimen bin is of a three-layer structure, and the middle layer is a foam layer.

8. The large fungus collecting and drying solar device according to claim 1, wherein the solar device comprises: the length of the partition plate, the positioning rod and the support rod can be adjusted in a telescopic mode.

Images