CN215373292U - Fertilizer production drying device - Google Patents

Abstract

The utility model discloses an organic fertilizer production drying device which comprises a processing platform, supporting legs, a dryer, a discharge port, a heat dissipation window, a control panel, a solar panel, a feed port and an air pipe heating device, wherein the processing platform is of a four-side rectangular structure, three groups of supporting legs which are symmetrically distributed at equal intervals are installed at the bottom of the processing platform, the dryer is installed in the middle of the top end of the processing platform, the discharge port of the rectangular structure is formed in the middle of the right end face of the processing platform, the rectangular heat dissipation windows which are symmetrically distributed are formed in the top end of the discharge port, an embedded control panel is installed in the middle of the positive end face of the dryer, the solar panel is installed in the middle of the top end of the dryer, the feed port is formed in the left end of the dryer, and the air pipe heating device is installed at the left end of the dryer. The utility model effectively improves the drying efficiency of the equipment by adding the reverse heating and stirring device through reasonable design, and simultaneously improves the air circulation efficiency by installing the linkage type drainage fan, and can save energy and reduce the production cost.

Description

Fertilizer production drying device

Technical Field

The utility model relates to a drying device, in particular to a drying device for organic fertilizer production.

Background

The development of biotechnology and the increasing of population, also follow the more preferred organic fertilizer of chemical extraction to the fertilizer that grain crop growth is essential, but the organic fertilizer production drying device that uses often drying efficiency is lower and the energy consumption is more at present, so need a novel organic fertilizer production drying device that can improve drying efficiency and energy saving.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an organic fertilizer production and drying device to solve the technical problem.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a fertilizer production drying device, includes processing platform, supporting leg, drying-machine, discharge gate, heat dissipation window, control panel, solar panel, feed inlet, tuber pipe heating device, its characterized in that: processing platform installs the supporting leg that three equidistance symmetric distributions of group for four sides rectangle structure and bottom, processing platform top mid-mounting has the discharge gate that has the rectangle structure to open at drying apparatus and right-hand member face middle part, the rectangle heat dissipation window that has the symmetric distribution is opened on the discharge gate top, the positive terminal surface mid-mounting of drying-machine has embedded control panel, drying-machine top mid-mounting has solar panel and left end to open there is the feed inlet, tuber pipe heating device is installed to the drying-machine left end.

On the basis of the technical scheme, a drainage fan, an air outlet pipe, fan blades, a first driven gear, a transmission gear, a second transmission gear, a driving motor, a stirring paddle, a through hole, a groove, a bearing, a stirring bin, an exhaust pipe opening, an air inlet pipe opening and a reverse type heating stirrer are installed inside the dryer, an air pipe heating device is connected with the drainage fan through a pipeline, the air outlet pipe which is symmetrically distributed is installed at the bottom of the right end of the drainage fan, the fan blades are installed in the middle of the inner side of the drainage fan and are meshed with the first transmission gear at the top end through the first driven gear at the rear end, the driving motor is installed at the left end of the first transmission gear, the stirring paddle is installed at the right end and is fixed through key connection, the surface of the stirring paddle is provided with the through hole which is symmetrically distributed, the inner side of the through hole is provided with a semi-open rectangular groove, the second transmission gear is installed at the right end of the stirring paddle and is hinged and fixed with the stirring bin through the bearing at the right end, the stirring storehouse top is installed the exhaust pipe mouth and the left end face is installed the air inlet mouth of pipe and is connected with the play tuber pipe through the pipeline, the inboard right-hand member in stirring storehouse is installed reversal formula heating agitator.

On the basis of the technical scheme, reversal formula heating agitator includes second driven gear, shield, ceramic outer tube, asbestos gauge, resistance heating stick, base, the shield is cylindrical structure and passes through the bolt fastening at the inboard right-hand member middle part of stirring storehouse, the shield left end face is installed four equidistance symmetric distribution's embedded ceramic outer tube and is connected with the second drive gear meshing of stirring rake afterbody through the second driven gear of afterbody, asbestos gauge is installed to ceramic outer tube inboard, the resistance heating stick is installed to asbestos gauge inboard, resistance heating stick afterbody is installed the bearing and is articulated fixed with ceramic outer tube, the base passes through the bearing and is articulated fixed and pass through the bolt fastening inboard at the shield with ceramic outer tube.

Compared with the prior art, the utility model has the following advantages: according to the drying device, the linkage type rotating drainage fan is additionally arranged, the fan blades are driven to rotate by utilizing the kinetic energy of the stirring paddle to drain the drying air heated in the air pipe heating equipment, the air flow is accelerated to improve the drying efficiency, meanwhile, the stirring paddle drives the reverse heating stirrer to rotate through the second transmission gear and the second driven gear inner core, the stirring efficiency is improved, the materials can be heated to evaporate the internal moisture, the drying efficiency is further improved, meanwhile, the drainage fan, the stirring paddle and the reverse heating stirrer are driven by the solar panel and the motor to work, the energy consumption of the equipment can be effectively reduced, and the environment is protected.

Drawings

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

Fig. 2 is a schematic view of the connection of the internal structure of the dryer of the present invention.

FIG. 3 is a schematic view of a counter-rotating heated agitator according to the present invention.

In the figure: 1. the device comprises a processing platform, 2, supporting legs, 3, a dryer, 4, a discharge port, 5, a heat dissipation window, 6, a control panel, 7, a solar panel, 8, a feed port, 9, an air pipe heating device, 10, a drainage fan, 10-1, an air outlet pipe, 11, fan blades, 12, a first driven gear, 12-1, a second driven gear, 13, a first transmission gear, 13-1, a second transmission gear, 14, a driving motor, 15, a stirring paddle, 15-1, through holes, 15-2, a groove, 16, a bearing, 17, a stirring bin, 17-1, an exhaust pipe orifice, 17-2, an air inlet pipe orifice, 18, a reverse-rotation type heating stirrer, 19, a dustproof cover, 20, a ceramic outer pipe, 21, asbestos gauze, 22, a resistance heating rod, 23 and a base.

Detailed Description

The utility model is explained in further detail below with reference to the figures and the specific embodiments.

As shown in figures 1-3, a fertilizer production drying device comprises a processing platform 1, support legs 2, a dryer 3, a discharge port 4, a heat dissipation window 5, a control panel 6, a solar panel 7, a feed inlet 8 and an air pipe heating device 9, wherein the processing platform 1 is made of metal materials with a four-side rectangular structure, the bottom of the processing platform is provided with three groups of support legs 2 which are symmetrically distributed in an equal distance, the support legs 2 are made of metal materials fixed by bolts, the bottom of the processing platform is sleeved with a rubber shock pad, the middle part of the top end of the processing platform 1 is provided with the dryer 3, the middle part of the right end face of the processing platform is provided with the discharge port 4 with a rectangular structure, the interior of the processing platform is provided with forty-five slopes, the top end of the discharge port 4 is provided with a hole-shaped heat dissipation window 5 with a symmetrically distributed rectangular structure, the middle part of the positive end face of the dryer 3 is provided with an embedded control panel 6, the middle part of the top end of the dryer 3 is provided with the solar panel 7, and the left end of the dryer is provided with the 8, and an air pipe heating device 9 is installed at the left end of the dryer 3 and is connected with the dryer through a pipeline made of PVC materials.

Dryer 3 internally mounted has drainage fan 10, goes out tuber pipe 10-1, flabellum 11, first driven gear 12, drive gear 13, second drive gear 13-1, driving motor 14, stirring rake 15, through-hole 15-1, recess 15-2, bearing 16, stirring storehouse 17, exhaust pipe 17-1, air inlet pipe 17-2, reversal formula heating agitator 18, tuber pipe heating device 9 is connected with drainage fan 10 through the pipeline that the PVC material was made, drainage fan 10 is made for metal material and right-hand member bottom installs the tuber pipe 10-1 that the symmetry formula distributes, drainage fan 10 inboard mid-mounting has flabellum 11 and is connected with the meshing of the first driven gear 13 on top through the first driven gear 12 of rear end, first drive gear 13 is made for high strength alloy material and driving motor 14 is installed to the left end, stirring rake 15 that metal material made is installed to first drive gear 13 right-hand member and fixed through the key-type connection, 15 surfaces of stirring rake are opened through-hole 15-1 that has the symmetrical formula to distribute and the inboard is opened has semi-open rectangle recess 15-2, 15 right-hand members of stirring rake are installed second drive gear 13-1 and are passed through the high strength ball bearing 16 of right-hand member and are articulated fixed with stirring storehouse 17, the mouth of pipe 17-1 of exhausting is installed on stirring storehouse 17 top and the left end face is installed and is advanced air pipe 17-2 and be connected with play tuber pipe 10-1 through the pipeline, stirring storehouse 17 inboard right-hand member is installed reversal formula heating agitator 18 and is pegged graft the cooperation with the recess of stirring rake 15 inboard.

The reverse heating stirrer 18 comprises a second driven gear 12-1, a dustproof cover 19, a ceramic outer tube 20, an asbestos mesh 21, a resistance heating rod 22 and a base 23, the dust cover 19 is a cylindrical metal cavity structure and is fixed in the middle of the right end of the inner side of the stirring bin 17 through a bolt, four embedded ceramic outer tubes 20 which are symmetrically distributed at equal intervals are arranged on the left end face of the dustproof cover 19, a second driven gear 21 made of high-strength alloy material at the tail part is meshed and connected with a second transmission gear 13-1 at the tail part of the stirring paddle 15, the inner side of the ceramic outer tube 20 is provided with an asbestos net 21, the inner side of the asbestos net 21 is provided with a resistance heating rod 22, the tail part of the resistance heating rod 22 is provided with a bearing 16 and is hinged and fixed with the ceramic outer tube 20, the base 23 is hinged and fixed with the ceramic outer tube 20 through the bearing 16 and fixed on the inner side of the dust cover 19 through a bolt.

The working principle of the utility model is as follows: carry the fertilizer to the inside simultaneous operation control panel in stirring storehouse through the feed inlet and make tuber pipe heating device start filtration air impurity and heated air pass through inside pipe transportation to the drainage fan, the drainage fan passes through driving motor and drives first drive gear and first driven gear meshing makes the rotatory air cycle efficiency that improves of flabellum and pipeline via going out tuber pipe and air inlet mouth of pipe and getting into the stirring storehouse, driving motor drives the stirring rake rotatory simultaneously and utilizes the through-hole to make the material upset while the second drive gear of stirring rake right-hand member and the inside second driven gear meshing of the reversal formula heating agitator of right-hand member make four ceramic outer tubes rotatory, the inside resistance heating stick of ceramic outer tube carries out even heating through the asbestos mesh and avoids the fracture then heats the moisture dry by the exhaust mouth of pipe discharge to the inside moisture of fertilizer.

The foregoing is a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that variations, modifications, substitutions and alterations can be made in the embodiment without departing from the principles and spirit of the utility model.

Claims (3)

1. The utility model provides a fertilizer production drying device, includes processing platform (1), supporting leg (2), drying-machine (3), discharge gate (4), heat dissipation window (5), control panel (6), solar panel (7), feed inlet (8), tuber pipe heating device (9), its characterized in that: processing platform (1) installs supporting leg (2) of three equidistance symmetric distributions of group for four sides rectangle structure and bottom, processing platform (1) top mid-mounting has drying-machine (3) and right-hand member face middle part to open discharge gate (4) that have the rectangle structure, rectangle heat dissipation window (5) that have the symmetric distribution are opened on discharge gate (4) top, drying-machine (3) positive terminal surface mid-mounting has embedded control panel (6), drying-machine (3) top mid-mounting has solar panel (7) and left end to open there is feed inlet (8), tuber pipe heating device (9) are installed to drying-machine (3) left end.

2. The organic fertilizer production and drying device of claim 1, which is characterized in that: the dryer (3) is internally provided with a drainage fan (10), an air outlet pipe (10-1), fan blades (11), a first driven gear (12), a first transmission gear (13), a second transmission gear (13-1), a driving motor (14), a stirring paddle (15), a through hole (15-1), a groove (15-2), a bearing (16), a stirring bin (17), an air outlet pipe opening (17-1), an air inlet pipe opening (17-2) and a reverse heating stirrer (18), the air pipe heating device (9) is connected with the drainage fan (10) through a pipeline, the air outlet pipes (10-1) which are symmetrically distributed are arranged at the bottom of the right end of the drainage fan (10), the fan blades (11) are arranged in the middle of the inner side of the drainage fan (10) and are meshed with the first transmission gear (13) at the top end through the first driven gear (12) at the rear end, driving motor (14) are installed to first drive gear (13) left end, first drive gear (13) right-hand member is installed stirring rake (15) and is fixed through the key-type connection, stirring rake (15) surface is opened through-hole (15-1) and the inboard that has the symmetric distribution and is opened there is semi-open rectangle recess (15-2), stirring rake (15) right-hand member is installed second drive gear (13-1) and is articulated fixed with stirring storehouse (17) through bearing (16) of right-hand member, stirring storehouse (17) top is installed exhaust pipe mouth (17-1) and left end face and is installed inlet pipe mouth (17-2) and be connected with play tuber pipe (10-1) through the pipeline, reversal formula heating agitator (18) is installed to stirring storehouse (17) inboard right-hand member.

3. The organic fertilizer production and drying device of claim 2, which is characterized in that: the reverse heating stirrer (18) comprises a second driven gear (12-1), a dust cover (19), a ceramic outer tube (20), an asbestos gauze (21), a resistance heating rod (22) and a base (23), wherein the dust cover (19) is of a cylindrical structure and is fixed in the middle of the inner right end of a stirring bin (17) through bolts, the left end face of the dust cover (19) is provided with four embedded ceramic outer tubes (20) which are symmetrically distributed at equal intervals and is meshed with a second driven gear (12-1) at the tail part and a second transmission gear (13-1) at the tail part of a stirring paddle (15), the asbestos gauze (21) is arranged on the inner side of the ceramic outer tube (20), the resistance heating rod (22) is arranged on the inner side of the asbestos gauze (21), the tail part of the resistance heating rod (22) is provided with a bearing (16) and is hinged and fixed with the ceramic outer tube (20), the base (23) is hinged and fixed with the ceramic outer pipe (20) through a bearing (16) and is fixed on the inner side of the dust cover (19) through a bolt.

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