CN213669488U - Flower organic fertilizer dewatering device - Google Patents

Abstract

The utility model discloses a flowers fertilizer dewatering device, including backup pad, U shaped bottom plate, damping spring, retainer plate, processing case, discharge gate and motor A, a set of damping spring is installed to the bottom of backup pad, U shaped bottom plate is installed to damping spring's bottom, the electro-magnet is all installed to one side surface of the inside of U shaped bottom plate and backup pad, motor C is installed to the bottom of discharge gate, the dehydration case is installed at the top of processing case, the surface mounting of processing case has motor A. The utility model discloses a motor A and motor B can drive the vibrations rotor and rotate, and first filter screen is the heavy-calibre filter screen, and the fertilizer of caking after can roughly screening dehydration carries out the grinding and processes the back ejection of compact again, and the fertilizer that does not reach the requirement passes through the guide plate and takes to grinding miller A and grinding miller B's top and grind the processing, grinds the bottom that falls into the processing case behind the powder and carries out the ejection of compact, has increased device production precision.

Description

Flower organic fertilizer dewatering device

Technical Field

The utility model relates to a fertilizer processing field specifically is a flower fertilizer dewatering device.

Background

In organic fertilizers, some fertilizers such as human and animal excreta often carry various pathogenic bacteria, viruses, parasitic ova, foul smell and the like, and some fertilizer sources such as weeds and the like often carry various disease and pest infectors, seeds and the like, so that the production of pollution-free organic fertilizers generally needs dehydration treatment to make the fertilizers harmless, and the normal fertilizer supply can be ensured in the flower cultivation process.

The existing organic fertilizer dehydration device has the defects that:

1. the existing organic fertilizer dehydration device has the defects of single dehydration step, poor dehydration effect and incapability of improving the quality of processed products;

2. the phenomenon of caking can appear after the dehydration in current fertilizer dewatering device, can't improve the quality of processing product.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a flowers fertilizer dewatering device to solve the not good problem of dehydration effect who mentions in the above-mentioned background problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a flowers fertilizer dewatering device, includes backup pad, U type bottom plate, damping spring, retainer plate, processing case, discharge gate and motor A, a set of damping spring is installed to the bottom of backup pad, U type bottom plate is installed to damping spring's bottom, the electro-magnet is all installed to U type bottom plate's inside and a side surface of backup pad, a set of support column is installed at the top of backup pad, the retainer plate is installed through the connecting piece in the top of support column, the internally mounted of retainer plate has the processing case, the bottom of processing case is equipped with the discharge gate, motor C is installed to the bottom of discharge gate, the dewatering case is installed at the top of processing case, the surface mounting of processing case has motor A, and motor A is located the top of retainer plate.

Preferably, a control panel is mounted on the surface of the fixing ring and is located below the motor a.

Preferably, the surface mounting of processing case has the viewing aperture, and the surface mounting of processing case has first motor, and the surface mounting of processing case has the second motor, and the second motor is located one side that the viewing aperture was kept away from to first motor, and the internally mounted of heating cabinet has grinding miller A, and grinding miller A is connected with the output of first motor, and the internally mounted of processing case has grinding miller B, and grinding miller B is connected with the output of second motor, and the internally mounted of processing case has a set of baffle, and the baffle is located grinding miller A and grinding miller B's top.

Preferably, the top of dehydration box is equipped with the pan feeding mouth, and the surface mounting of dehydration box has the thermometer, and the thermometer is located the top of retainer plate, installs the heating pipe in the inner wall of dehydration box, and the internally mounted of dehydration box has first stop board, and the internally mounted of dehydration box has the second to stop the board, and the second stops the below that the board is located first stop board, and the internally mounted of dehydration box has a set of first slide dehydration box's internally mounted has a set of second slide, and the second slide is located the below of first slide.

Preferably, the surface mounting of processing case has motor B, and motor B is located one side of motor A, and the internally mounted of processing case has first filter screen, and the internally mounted of processing case has vibrations rotor, and shakes the below that the rotor is located first filter screen, and the internally mounted of processing case has the second filter screen, and the second filter screen is located the below of vibrations rotor.

Preferably, the inside of discharge gate installs the hob, and the hob is connected with the output of the motor C of discharge gate bottom.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a throw wet fertilizer into the dehydration case from the pan feeding mouth, at first stop on first stop board, heat through the heating pipe, moisture in the high temperature evaporation fertilizer, when the volume of bearing the weight of fertilizer reaches the limit on first stop board, the fertilizer from both sides landing, the landing is to first slide top, landing to the second stop board on from first slide again, let the fertilizer dispersion at the landing in-process, increase the area of contact of fertilizer and air, abundant evaporation dehydration that evaporates, stop the evaporation once more on the second stop board, there is the top that the landing reachs first filter screen through the second slide once more of fertilizer when reaching the maximum, accomplish the dehydration of fertilizer, the effect that multistage formula evaporation dehydration has solved traditional dehydration is poor not thorough problem, the quality of fertilizer product has been improved.

2. The utility model discloses a motor A and motor B can drive the vibrations rotor and rotate, the vibrations rotor rotates and drives first filter screen and second filter screen and shake, first filter screen is the heavy-calibre filter screen, the fertilizer of caking after can roughly screening play the dehydration, the fertilizer of caking is ground the processing back ejection of compact again, the fertilizer through first filter screen resumes the screening through the second filter screen, let the fertilizer powder that reaches the requirement pass through the filter screen, the powder that does not reach the requirement is ground the processing back ejection of compact again, the fertilizer that does not reach the requirement carries out abrasive treatment through the top of baffle area to grinding miller A and grinding miller B, it carries out the ejection of compact to fall into the bottom of processing case behind the powder to grind, device production precision has been increased.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall cross-sectional structure of the present invention;

FIG. 3 is a schematic structural view of the sieving device of the present invention;

fig. 4 is a schematic view of the structure of the discharge hole of the present invention.

In the figure: 1. a support plate; 2. a U-shaped bottom plate; 3. a damping spring; 301. an electromagnet; 4. a support pillar; 401. a stationary ring; 402. a control panel; 5. a processing box; 501. a viewing port; 502. a first motor; 503. a second motor; 504. a discharge port; 505. a grinding wheel A; 506. a grinding wheel B; 507. a guide plate; 6. a dewatering box; 601. a feeding port; 602. a thermometer; 603. heating a tube; 604. a first stay plate; 605. a second stay plate; 606. a first slide plate; 607. a second slide plate; 7. a motor A; 701. a motor B; 702. a first filter screen; 703. vibrating the rotor; 704. a second filter screen; 8. a motor C; 801. a screw rod.

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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: a flower organic fertilizer dehydration device comprises a supporting plate 1, a U-shaped bottom plate 2, damping springs 3, a fixing ring 401, a processing box 5, a discharge hole 504 and a motor A7, wherein a group of damping springs 3 are installed at the bottom of the supporting plate 1, the damping springs 3 can damp the device, the service life of the device is shortened by preventing the device from rubbing with the ground, the U-shaped bottom plate 2 is installed at the bottom of the damping springs 3, the U-shaped bottom plate 2 can ensure that the whole device is not contacted with the ground, the damping effect is achieved to the maximum extent, electromagnets 301 are installed inside the U-shaped bottom plate 2 and on one side surface of the supporting plate 1, the electromagnets 301 are located in the middle of the U-shaped bottom plate 2 through mutual repulsion, the device is not collided with two sides of the U-shaped bottom plate 2, the damping effect is achieved, a group of supporting columns 4 are installed at the top of the supporting plate 1, and the supporting columns 4, the stability of the device is ensured, the fixing ring 401 is arranged above the supporting column 4 through a connecting piece, the fixing ring 401 can fix the processing box 5 more stably, the stability of the device is improved, the processing box 5 is arranged inside the fixing ring 401, the processing box 5 can smash the dehydrated large blocks, the obtained products are powder, the product quality of the device is improved, a discharge port 504 is arranged at the bottom of the processing box 5, the processed materials can be conveniently discharged through the discharge port 504, bagging and packaging are facilitated, the production efficiency is improved, a motor C8 is arranged at the bottom of the discharge port 504, a motor C8 can provide continuous power for the device, the normal working operation of the device is ensured, a dewatering box 6 is arranged at the top of the processing box 5, the dewatering box 6 can heat and dry organic fertilizers, the organic fertilizers are dehydrated, the organic fertilizers are convenient to be stored, and the performance of the device is improved, the surface mounting of processing case 5 has motor A7, and motor A7 is located the top of retainer plate 401, and motor A7 can provide lasting power for the device, guarantees the device and normally works, increases the work efficiency of device.

Further, the surface mounting of retainer plate 401 has control panel 402, and control panel 402 is located the below of motor A7, and control panel 402 can the holistic start of controlling means and close, and the convenience is from the operation, increases the comfort level of operation.

Further, the surface of the processing box 5 is provided with an observation port 501, the observation port 501 facilitates observation of the processing condition inside the processing box 5, and facilitates operation of an operator on the device, and increases the practicability of the device, the surface of the processing box 5 is provided with a first motor, the first motor 502 is positioned on one side 502 of the observation port, the first motor 502 is positioned on one side of the observation port 501, the surface of the processing box 5 is provided with a second motor 503, the second motor 503 is positioned on one side of the first motor 502 away from the observation port 501, the heating box is internally provided with a grinding wheel a505, the grinding wheel a505 is connected with the output end of the first motor 502, the processing box 5 is internally provided with a grinding wheel B506, the grinding wheel B506 is connected with the output end of the second motor 503, the processing box 5 is internally provided with a set of guide plate 507, the guide plate 507 is positioned above the grinding wheel a505 and the grinding wheel B506, the first motor 502 and the second motor 503 drive the grinding wheel a505 and the grinding wheel B506 to rotate, carry out grinding treatment to the fertilizer caking of first filter screen 702 and second filter screen 704 screening through baffle 507 and take to the top of grinding miller A505 and grinding miller B506, fall into the bottom of processing case 5 after grinding into the powder and carry out the ejection of compact, increased device production precision.

Further, a feeding port 601 is arranged at the top of the dewatering box 6, a thermometer 602 is arranged on the surface of the dewatering box 6, the thermometer 602 is located above the fixing ring 401, heating pipes 603 are arranged in the inner wall of the dewatering box 6, a first stop plate 604 is arranged in the dewatering box 6, a second stop plate 605 is arranged in the dewatering box 6, the second stop plate 605 is located below the first stop plate 604, a group of first sliding plates 606 is arranged in the dewatering box 6, a group of second sliding plates 607 is arranged in the dewatering box 6, the second sliding plates 607 are located below the first sliding plates 606, wet organic fertilizer is fed from the feeding port 601, in the dewatering box 6, firstly, the organic fertilizer stops on the first stop plate 604, the organic fertilizer is heated by the heating pipes 603, water in the organic fertilizer is evaporated at high temperature, when the organic fertilizer on the first stop plate 604 reaches a limit, the organic fertilizer slides down from both sides and slides down to the upper side of the first sliding plates 606, and then the organic fertilizer slides down from the first sliding plate 606 to the second stopping plate 605, the organic fertilizer is dispersed in the sliding process, the contact area between the organic fertilizer and the air is increased, evaporation and dehydration are sufficiently performed, evaporation is stopped on the second stopping plate 605 again, the organic fertilizer slides down again to reach the upper part of the first filter screen 702 through the second sliding plate 607 when the maximum amount is reached, the dehydration of the organic fertilizer is completed, the problem of poor and incomplete effect of the traditional dehydration is solved through multi-section evaporation and dehydration, and the quality of the organic fertilizer product is improved.

Further, a motor B701 is installed on the surface of the processing box 5, the motor B701 is located on one side of a motor a7, a first filter screen 702 is installed inside the processing box 5, a vibration rotor 703 is installed inside the processing box 5, the vibration rotor 703 is located below the first filter screen 702, a second filter screen 704 is installed inside the processing box 5, the second filter screen 704 is located below the vibration rotor 703, the motor a7 and the motor B701 can drive the vibration rotor 703 to rotate, the vibration rotor 703 rotates to drive the first filter screen 702 and the second filter screen 704 to shake, the first filter screen 702 is a large-caliber filter screen, organic fertilizer agglomerated after dehydration can be roughly screened out, the agglomerated organic fertilizer is ground and then discharged, the organic fertilizer passing through the first filter screen 702 continues to be screened by the second filter screen 704, organic fertilizer powder meeting requirements passes through the filter screen, powder not meeting requirements is ground and then discharged, the production precision of the device is increased, and the quality of the product is improved.

Further, the internally mounted of discharge gate 504 has hob 801, and hob 801 is connected with the output of the motor C8 of discharge gate 504 bottom, and motor C8 rotates, drives hob 801 and rotates, and hob 801 can carry out quick rotatory taking-out with piling up the fertilizer inside processing box 5 after processing is accomplished, outside discharge gate 504 eduction gear, the effectual jam problem that prevents discharge gate 504, the work efficiency of increase device.

The working principle is as follows: putting wet organic fertilizer into a material inlet 601, in a dewatering box 6, firstly stopping on a first stopping plate 604, heating through a heating pipe 603, evaporating moisture in the organic fertilizer at high temperature, when the amount of the organic fertilizer carried on the first stopping plate 604 reaches a limit, the organic fertilizer slides from two sides, slides to the upper part of a first sliding plate 606, slides to a second stopping plate 605 from the first sliding plate 606, disperses the organic fertilizer in the sliding process, increases the contact area of the organic fertilizer and air, fully evaporates and dehydrates, stops again on the second stopping plate 605 for evaporation, when the maximum amount is reached, the organic fertilizer slides again to the upper part of a first filter screen 702 through a second sliding plate 607, dehydrates the organic fertilizer, a motor A7 and a motor B701 can drive a vibration rotor 703 to rotate, the vibration rotor 703 rotates to drive the first filter screen 702 and a second filter screen 704 to shake, the first filter screen 702 is a large-caliber filter screen, the fertilizer of caking after can roughly sieve out the dehydration, the fertilizer of caking carries out the ejection of compact again after grinding the processing, fertilizer through first filter screen 702 resumes through the screening of second filter screen 704 again, let the fertilizer powder that reaches the requirement pass through the filter screen, first motor 502 and second motor 503 drive grinding miller A505 and grinding miller B506 rotate, the fertilizer caking that sieves out first filter screen 702 and second filter screen 704 passes through guide plate 507 and takes to grinding miller A505 and grinding miller B506's top and carry out abrasive treatment, grind into the bottom that falls into processing case 5 behind the powder and carry out the ejection of compact.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention

The utility model discloses. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a flowers fertilizer dewatering device, includes backup pad (1), U type bottom plate (2), damping spring (3), retainer plate (401), processing case (5), discharge gate (504) and motor A (7), its characterized in that: a set of damping spring (3) is installed to the bottom of backup pad (1), U type bottom plate (2) are installed to the bottom of damping spring (3), electro-magnet (301) are all installed to the inside of U type bottom plate (2) and one side surface of backup pad (1), a set of support column (4) are installed at the top of backup pad (1), retainer plate (401) are installed through the connecting piece to the top of support column (4), the internally mounted of retainer plate (401) has processing case (5), the bottom of processing case (5) is equipped with discharge gate (504), motor C (8) are installed to the bottom of discharge gate (504), dewatering box (6) are installed at the top of processing case (5), the surface mounting of processing case (5) has motor A (7), and motor A (7) are located the top of retainer plate (401).

2. A flower organic fertilizer dehydration device as claimed in claim 1 wherein: the surface mounting of retainer plate (401) has control panel (402), and control panel (402) are located the below of motor A (7).

3. A flower organic fertilizer dehydration device as claimed in claim 1 wherein: the surface mounting of processing case (5) has viewing aperture (501), the surface mounting of processing case (5) has first motor (502), and first motor (502) are located one side of viewing aperture (501), the surface mounting of processing case (5) has second motor (503), and second motor (503) are located one side that viewing aperture (501) were kept away from in first motor (502), the internally mounted of heating cabinet has grinding miller A (505), and grinding miller A (505) is connected with the output of first motor (502), the internally mounted of processing case (5) has grinding miller B (506), and grinding miller B (506) is connected with the output of second motor (503), the internally mounted of processing case (5) has a set of baffle (507), and baffle (507) are located the top of grinding miller A (505) and grinding miller B (506).

4. A flower organic fertilizer dehydration device as claimed in claim 3 wherein: the top of dehydration case (6) is equipped with pan feeding mouth (601), the surface mounting of dehydration case (6) has thermometer (602), and thermometer (602) are located the top of retainer plate (401), install heating pipe (603) in the inner wall of dehydration case (6), the internally mounted of dehydration case (6) has first stop board (604), the internally mounted of dehydration case (6) has second stop board (605), and second stop board (605) are located the below of first stop board (604), the internally mounted of dehydration case (6) has a set of internally mounted of first slide (606) dehydration case (6) has a set of second slide (607), and second slide (607) are located the below of first slide (606).

5. A flower organic fertilizer dehydration device as claimed in claim 1 wherein: the surface mounting of processing case (5) has motor B (701), and motor B (701) are located one side of motor A (7), and the internally mounted of processing case (5) has first filter screen (702), and the internally mounted of processing case (5) has vibrations rotor (703), and vibrations rotor (703) are located the below of first filter screen (702), and the internally mounted of processing case (5) has second filter screen (704), and second filter screen (704) are located the below of vibrations rotor (703).

6. A flower organic fertilizer dehydration device as claimed in claim 1 wherein: the inside of discharge gate (504) is installed screw rod (801), and screw rod (801) are connected with the output of motor C (8) of discharge gate (504) bottom.

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