CN111012939A - A tractor serves several purposes formula peculiar smell purifier for animal husbandry - Google Patents

Abstract

The invention discloses a multi-purpose peculiar smell purification device for animal husbandry. The invention can purify the passing air by the adsorption capacity of the active carbon, and simultaneously, by utilizing the centrifugal capacity of the rotating device, so that the activated carbon particles inside can be scattered on the surface of the mechanism according to the difference of the volume and the weight of the activated carbon particles, the contact area of the air and the activated carbon is increased, the purification efficiency is accelerated, and in addition, the device is provided with a gear set meshing type speed and strength conversion mechanism, can realize the functions of reducing speed and increasing strength, thereby achieving reasonable functional requirements, and in addition, the device is provided with a conical inclined surface ventilation type active carbon storage mechanism, which can store the active carbon, meanwhile, the active carbon can be attached to the surface of the active carbon during movement, in addition, the device is provided with an internal installation type air suction guiding mechanism, and can provide suction for realizing gas, so that sucked air can be directly sprayed to the surface of the activated carbon.

Description

A tractor serves several purposes formula peculiar smell purifier for animal husbandry

Technical Field

The invention relates to the technical field of animal husbandry, in particular to a multi-purpose peculiar smell purification device for the animal husbandry.

Background

At present, in animal husbandry breeding places, the smell inside a breeding farm is relatively unpleasant due to the sanitary problem, and the purification strength of the existing peculiar smell purification device is poor.

Disclosure of Invention

The invention aims to provide a multi-purpose peculiar smell purifying device for animal husbandry, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a multi-purpose peculiar smell purification device for animal husbandry comprises a main body shell, wherein supporting legs are installed at the bottom of the main body shell, a main air inlet hole is formed in the center of the top of the main body shell, an air reserved space is formed in the bottom of the main air inlet hole, a driving motor installation shell is installed at the center of the bottom of the main body shell, a driving motor is installed inside the driving motor installation shell, a main part installation space is arranged inside the main body shell under the air reserved space, a turbine installation space is arranged inside the main body shell under the main part installation space, an auxiliary air inlet hole communicated with one side of the bottom of the air reserved space and an air inlet end of the turbine installation space is formed inside the main body shell, a main exhaust hole communicated with the outside space and an exhaust end of the turbine installation space is formed inside the main body shell, the motor main shaft among the driving motor runs through turbine installation space, just the motor main shaft is lieing in an installation turbine is gone up to the inside axis body of turbine installation space, the motor main shaft is lieing in a gear train engaged speed of inside one end installation of main part installation space and intensity conversion mechanism, a main rotation axis of gear train engaged speed and intensity conversion mechanism's top center installation, main rotation axis is lieing in a bottom rotor plate is installed to the inside one end in air reservation space, bottom rotor plate upper surface stores the mechanism through the ventilative formula active carbon in toper inclined plane and connects a top rotor plate, top rotor plate center is provided with the part mounting hole, a main bearing installation internally mounted air inhales guiding mechanism through the inside of part mounting hole.

Further, the gear set meshing type speed and strength conversion mechanism comprises a hollow shell for the gear set meshing type speed and strength conversion mechanism, a hollow structure for the gear set meshing type speed and strength conversion mechanism, a first rotating shaft for the gear set meshing type speed and strength conversion mechanism, a bearing for the gear set meshing type speed and strength conversion mechanism, a second rotating shaft for the gear set meshing type speed and strength conversion mechanism, a third rotating shaft for the gear set meshing type speed and strength conversion mechanism, a first gear for the gear set meshing type speed and strength conversion mechanism, a second gear for the gear set meshing type speed and strength conversion mechanism, a third gear for the gear set meshing type speed and strength conversion mechanism and a fourth gear for the gear set meshing type speed and strength conversion mechanism; the hollow shell for the gear set meshing type speed and strength conversion mechanism is internally provided with a hollow structure for the gear set meshing type speed and strength conversion mechanism, the bottom center of the hollow shell for the gear set meshing type speed and strength conversion mechanism is provided with a first rotating shaft for the gear set meshing type speed and strength conversion mechanism through a bearing for the gear set meshing type speed and strength conversion mechanism, the top center of the hollow shell for the gear set meshing type speed and strength conversion mechanism is provided with a third rotating shaft for the gear set meshing type speed and strength conversion mechanism through a bearing for the gear set meshing type speed and strength conversion mechanism, the side surface of the hollow shell for the gear set meshing type speed and strength conversion mechanism is provided with a second rotating shaft for the gear set meshing type speed and strength conversion mechanism through a bearing for the gear set meshing type speed and strength conversion mechanism, a second gear for the gear set meshing type speed and intensity conversion mechanism and a third gear for the gear set meshing type speed and intensity conversion mechanism are arranged on a shaft body of a second rotating shaft for the gear set meshing type speed and intensity conversion mechanism, the top end of the first rotating shaft for the gear set meshing type speed and strength conversion mechanism and the bottom end of the third rotating shaft for the gear set meshing type speed and strength conversion mechanism are respectively provided with a first gear for the gear set meshing type speed and strength conversion mechanism and a fourth gear for the gear set meshing type speed and strength conversion mechanism, and the first gear for the gear set meshing type speed and strength conversion mechanism is meshed with the tooth structure between the second gear for the gear set meshing type speed and strength conversion mechanism, and the third gear for the gear set meshing type speed and strength conversion mechanism is meshed with the tooth structure between the fourth gear for the gear set meshing type speed and strength conversion mechanism.

Further, the structural radius of the first gear reference circle for the gear set meshing type speed and strength conversion mechanism is smaller than the structural radius of the second gear reference circle for the gear set meshing type speed and strength conversion mechanism, the structural radius of the second gear reference circle for the gear set meshing type speed and strength conversion mechanism is larger than the structural radius of a third gear reference circle for the gear set meshing type speed and strength conversion mechanism, and the structural radius of a fourth gear reference circle for the gear set meshing type speed and strength conversion mechanism is smaller than the structural radius of a fourth gear reference circle for the gear set meshing type speed and strength conversion mechanism.

Furthermore, the bottom end of the first rotating shaft for the gear set meshing type speed and strength conversion mechanism and the top end of the third rotating shaft for the gear set meshing type speed and strength conversion mechanism are respectively and fixedly connected with the top end of the motor spindle and the bottom end of the main rotating shaft.

Further, the conical inclined surface breathable activated carbon storage mechanism comprises a bottom connecting plate for the conical inclined surface breathable activated carbon storage mechanism, a top connecting plate for the conical inclined surface breathable activated carbon storage mechanism, a bottom bolt hole for the conical inclined surface breathable activated carbon storage mechanism, a top bolt hole for the conical inclined surface breathable activated carbon storage mechanism, an external annular body for the conical inclined surface breathable activated carbon storage mechanism, an internal annular body for the conical inclined surface breathable activated carbon storage mechanism, an activated carbon storage space for the conical inclined surface breathable activated carbon storage mechanism, an air reserved space for the conical inclined surface breathable activated carbon storage mechanism, an air vent for the conical inclined surface breathable activated carbon storage mechanism, a mounting hole for the conical inclined surface breathable activated carbon storage mechanism and an activated carbon feeding hole for the conical inclined surface breathable activated carbon storage mechanism; the inner sides of the outer annular bodies for the conical inclined plane breathable activated carbon storage mechanism are provided with air reserved spaces for the conical inclined plane breathable activated carbon storage mechanism, the center of the top connecting plate for the conical inclined plane breathable activated carbon storage mechanism is provided with a mounting hole for the conical inclined plane breathable activated carbon storage mechanism, an activated carbon storage space for the conical inclined plane breathable activated carbon storage mechanism is arranged between an external ring body for the conical inclined plane breathable activated carbon storage mechanism and an internal ring body for the conical inclined plane breathable activated carbon storage mechanism, and a plurality of air vents for the conical inclined plane breathable activated carbon storage mechanism are arranged in the external ring body for the conical inclined plane breathable activated carbon storage mechanism and the internal ring body for the conical inclined plane breathable activated carbon storage mechanism.

Furthermore, the outer annular body for the conical inclined surface ventilation type activated carbon storage mechanism and the inner annular body for the conical inclined surface ventilation type activated carbon storage mechanism are of inverted conical structures.

Further, the bottom connecting plate for the conical inclined plane breathable type activated carbon storage mechanism and the top connecting plate for the conical inclined plane breathable type activated carbon storage mechanism are respectively installed on the surfaces of the bottom rotating plate and the top rotating plate, and an internally installed air suction guiding mechanism penetrates through the inside of the installation hole for the conical inclined plane breathable type activated carbon storage mechanism.

Further, the internally-installed air intake guide mechanism includes a connecting plate for the internally-installed air intake guide mechanism, a bolt hole for the internally-installed air intake guide mechanism, a hollow housing for the internally-installed air intake guide mechanism, a hollow structure for the internally-installed air intake guide mechanism, an exhaust hole for the internally-installed air intake guide mechanism, an air intake port for the internally-installed air intake guide mechanism, and an exhaust port for the internally-installed air intake guide mechanism; the air suction guide mechanism is characterized in that a plurality of internally-mounted air suction guide mechanism bolt holes are formed in the connecting plate for the internally-mounted air suction guide mechanism, a hollow shell of an integrally-structured internally-mounted air suction guide mechanism is arranged at the center of the bottom of the connecting plate for the internally-mounted air suction guide mechanism, a hollow structure for the internally-mounted air suction guide mechanism is arranged in the hollow shell for the internally-mounted air suction guide mechanism, and is communicated with the upper surface of the connecting plate for the internally-mounted air suction guide mechanism, a plurality of exhaust holes for communicating the external space with the hollow structure for the internally-mounted air suction guide mechanism are formed in the side surface of the hollow shell for the internally-mounted air suction guide mechanism, and the exhaust holes for the internally-mounted air suction guide mechanism are formed in one side of the hollow structure for the internally-mounted air suction guide mechanism and one side of the outside An air inlet port for an internal installation type air suction guiding mechanism and an air outlet port for the internal installation type air suction guiding mechanism are respectively formed.

Further, the structural radius of the air intake port for the interior-mounted air intake guide mechanism is larger than the structural radius of the air exhaust port for the interior-mounted air intake guide mechanism.

Further, the internally-mounted air intake guide mechanism connecting plate is mounted on the ceiling of the air purification space by bolts inserted into the internally-mounted air intake guide mechanism bolt holes.

Compared with the prior art, the invention has the beneficial effects that: the invention can purify the passing air by the adsorption capacity of the active carbon, and simultaneously, by utilizing the centrifugal capacity of the rotating device, so that the activated carbon particles inside can be scattered on the surface of the mechanism according to the difference of the volume and the weight of the activated carbon particles, the contact area of the air and the activated carbon is increased, the purification efficiency is accelerated, and in addition, the device is provided with a gear set meshing type speed and strength conversion mechanism, can realize the functions of reducing speed and increasing strength, thereby achieving reasonable functional requirements, and in addition, the device is provided with a conical inclined surface ventilation type active carbon storage mechanism, which can store the active carbon, meanwhile, the active carbon can be attached to the surface of the active carbon during movement, in addition, the device is provided with an internal installation type air suction guiding mechanism, and can provide suction for realizing gas, so that sucked air can be directly sprayed to the surface of the activated carbon.

Drawings

FIG. 1 is a schematic view of a full-section structure of a multi-purpose odor purifying device for animal husbandry of the present invention;

FIG. 2 is a schematic structural diagram of a gear-set meshing speed and intensity conversion mechanism in a multi-purpose odor purification device for animal husbandry according to the present invention;

FIG. 3 is a schematic structural view of a conical inclined surface ventilation type activated carbon storage mechanism in the multi-purpose odor purification device for animal husbandry of the present invention;

FIG. 4 is a schematic structural view of an internally installed air suction guiding mechanism in the multi-purpose odor purifying apparatus for animal husbandry according to the present invention;

in the figure: 1, a main body housing, 2, an air reserving space, 3, an air reserving space, 4, a main part mounting space, 5, a turbine mounting space, 6, an auxiliary air inlet hole, 7, a main air outlet hole, 8, a driving motor mounting housing, 9, a driving motor, 10, a main bearing, 11, a motor spindle, 12, a turbine, 13, a main rotating shaft, 14, a bottom rotating plate, 15, a gear train meshing type speed and intensity converting mechanism, 151, a hollow housing for the gear train meshing type speed and intensity converting mechanism, 152, a hollow structure for the gear train meshing type speed and intensity converting mechanism, 153, a first rotating shaft for the gear train meshing type speed and intensity converting mechanism, 154, a bearing for the gear train meshing type speed and intensity converting mechanism, 155, a second rotating shaft for the gear train meshing type speed and intensity converting mechanism, 156, a third rotating shaft for the gear train meshing type speed and intensity converting mechanism, 157, a first gear for a gear-set mesh-type speed and intensity conversion mechanism, 158, a second gear for a gear-set mesh-type speed and intensity conversion mechanism, 159, a third gear for a gear-set mesh-type speed and intensity conversion mechanism, 1510, a fourth gear for a gear-set mesh-type speed and intensity conversion mechanism, 16, a tapered inclined-surface ventilation-type activated carbon storage mechanism, 161, a bottom connecting plate for a tapered inclined-surface ventilation-type activated carbon storage mechanism, 162, a top connecting plate for a tapered inclined-surface ventilation-type activated carbon storage mechanism, 163, a bottom bolt hole for a tapered inclined-surface ventilation-type activated carbon storage mechanism, 164, a top bolt hole for a tapered inclined-surface ventilation-type activated carbon storage mechanism, 165, an outer annular body for a tapered inclined-surface ventilation-type activated carbon storage mechanism, 166, an inner annular body for a tapered inclined-surface ventilation-type activated carbon storage mechanism, 167, an activated carbon storage space for a tapered inclined-surface, 168, air reserved space for a conical inclined surface ventilation type active carbon storage mechanism, 169, a vent hole for the conical inclined surface ventilation type active carbon storage mechanism, 1610, a mounting hole for the conical inclined surface ventilation type active carbon storage mechanism, 1611, an active carbon feeding hole for the conical inclined surface ventilation type active carbon storage mechanism, 17, a top rotating plate, 18 and a component mounting hole, 19, internal mount type air intake guide mechanism, 191, connecting plate for internal mount type air intake guide mechanism, 192, bolt hole for internal mount type air intake guide mechanism, 193, hollow housing for internal mount type air intake guide mechanism, 194, hollow structure for internal mount type air intake guide mechanism, 195, exhaust hole for internal mount type air intake guide mechanism, 196, intake port for internal mount type air intake guide mechanism, 197, exhaust port for internal mount type air intake guide mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the device comprises a main body shell 1, wherein supporting legs are installed at the bottom of the main body shell 1, a main air inlet 2 is arranged at the center of the top of the main body shell 1, an air reserved space 3 is arranged at the bottom of the main air inlet 2, a driving motor installation shell 8 is installed at the center of the bottom of the main body shell 1, a driving motor 9 is installed inside the driving motor installation shell 8, a main part installation space 4 is arranged inside the main body shell 1 under the air reserved space 3, a turbine installation space 5 is arranged inside the main body shell 1 under the main part installation space 4, an auxiliary air inlet 6 communicated with one side of the bottom of the air reserved space 3 and an air inlet end of the turbine installation space 5 is arranged inside the main body shell 1, a main exhaust hole 7 communicated with the outside space and an exhaust end of the turbine installation space 5 is arranged inside the main body shell 1, a motor spindle 11 in the driving motor 9 penetrates through the turbine installation space 5, and the motor spindle 11 is provided with a turbine 12 on a shaft body positioned inside the turbine installation space 5, the motor spindle 11 is provided with a gear-set meshing type speed and intensity conversion mechanism 15 at one end inside the main part mounting space 4, a main rotating shaft 13 is installed at the center of the top end of the gear set meshing type speed and strength conversion mechanism 15, the main rotating shaft 13 is provided with a bottom rotating plate 14 at one end located inside the air head space 3, the upper surface of the bottom rotating plate 14 is connected with a top rotating plate 17 through a conical inclined surface ventilation type active carbon storage mechanism 16, the top rotating plate 17 is centrally provided with a component mounting hole 18, and an internal mounting type air suction guiding mechanism 19 is mounted inside the component mounting hole 18 through the main bearing 10.

Referring to fig. 2, the gear-set meshing type speed and strength converting mechanism 15 includes a gear-set meshing type speed and strength converting mechanism hollow housing 151, a gear-set meshing type speed and strength converting mechanism hollow structure 152, a gear-set meshing type speed and strength converting mechanism first rotating shaft 153, a gear-set meshing type speed and strength converting mechanism bearing 154, a gear-set meshing type speed and strength converting mechanism second rotating shaft 155, a gear-set meshing type speed and strength converting mechanism third rotating shaft 157, a gear-set meshing type speed and strength converting mechanism first gear 158, a gear-set meshing type speed and strength converting mechanism second gear 159, a gear-set meshing type speed and strength converting mechanism third gear 1510, and a gear-set meshing type speed and strength converting mechanism fourth gear 1511; a hollow structure 152 for the gear train meshing type speed and strength converting mechanism is provided inside the hollow housing 151 for the gear train meshing type speed and strength converting mechanism, a first rotating shaft 153 for the gear train meshing type speed and strength converting mechanism is installed at the center of the bottom of the hollow housing 151 for the gear train meshing type speed and strength converting mechanism through a bearing 154 for the gear train meshing type speed and strength converting mechanism, a third rotating shaft 157 for the gear train meshing type speed and strength converting mechanism is installed at the center of the top of the hollow housing 151 for the gear train meshing type speed and strength converting mechanism through a bearing 154 for the gear train meshing type speed and strength converting mechanism, a second rotating shaft 155 for the gear train meshing type speed and strength converting mechanism is installed at the side of the hollow housing 151 for the gear train meshing type speed and strength converting mechanism through a bearing 154 for the gear train meshing type speed and strength converting mechanism, a second gear 159 for the gear-set meshing type speed and intensity conversion mechanism and a third gear 1510 for the gear-set meshing type speed and intensity conversion mechanism are mounted on a shaft body of the second rotating shaft 155 for the gear-set meshing type speed and intensity conversion mechanism, a first gear 158 for the gear-set meshing type speed and intensity conversion mechanism and a fourth gear 1511 for the gear-set meshing type speed and intensity conversion mechanism are mounted on a top end of the first rotating shaft 153 for the gear-set meshing type speed and intensity conversion mechanism and a bottom end of the third rotating shaft 157 for the gear-set meshing type speed and intensity conversion mechanism, respectively, the first gear 158 for the gear-set meshing type speed and intensity conversion mechanism meshes with a tooth structure between the second gear 159 for the gear-set meshing type speed and intensity conversion mechanism, and the third gear 1510 for the gear-set meshing type speed and intensity conversion mechanism meshes with a tooth structure between the fourth gear 1511 for the gear-set meshing type speed and intensity conversion mechanism Combining; the structural radius of the reference circle of the first gear 158 for the gear-set meshing type speed and strength conversion mechanism is smaller than the structural radius of the reference circle of the second gear 159 for the gear-set meshing type speed and strength conversion mechanism, the structural radius of the reference circle of the second gear 159 for the gear-set meshing type speed and strength conversion mechanism is larger than the structural radius of the reference circle of the third gear 1510 for the gear-set meshing type speed and strength conversion mechanism, and the structural radius of the third gear 1510 for the gear-set meshing type speed and strength conversion mechanism is smaller than the structural radius of the reference circle of the fourth gear 1511 for the gear-set meshing type speed and strength conversion mechanism; the bottom end of the first rotating shaft 153 for the gear set meshing type speed and strength conversion mechanism and the top end of the third rotating shaft 157 for the gear set meshing type speed and strength conversion mechanism are respectively and fixedly connected with the top end of the motor spindle 10 and the bottom end of the main rotating shaft 16, and the main functions of the device are as follows: the effects of reducing the rotation speed and enhancing the rotation strength are achieved.

Referring to fig. 3, the tapered inclined-surface ventilation-type activated carbon storage mechanism 16 includes a bottom connection plate 161 for the tapered inclined-surface ventilation-type activated carbon storage mechanism, a top connection plate 162 for the tapered inclined-surface ventilation-type activated carbon storage mechanism, a bottom bolt hole 163 for the tapered inclined-surface ventilation-type activated carbon storage mechanism, a top bolt hole 164 for the tapered inclined-surface ventilation-type activated carbon storage mechanism, and an outer ring body 165 for the tapered inclined-surface ventilation-type activated carbon storage mechanism, an inner annular body 166 for a tapered inclined surface ventilation type activated carbon storage mechanism, an activated carbon storage space 167 for a tapered inclined surface ventilation type activated carbon storage mechanism, an air reserved space 168 for a tapered inclined surface ventilation type activated carbon storage mechanism, a vent 169 for a tapered inclined surface ventilation type activated carbon storage mechanism, a mounting hole 1610 for a tapered inclined surface ventilation type activated carbon storage mechanism, and an activated carbon input hole 1611 for a tapered inclined surface ventilation type activated carbon storage mechanism; a bottom bolt hole 163 for a conical inclined plane ventilation type activated carbon storage mechanism and a top bolt hole 164 for a conical inclined plane ventilation type activated carbon storage mechanism are respectively arranged inside the bottom connecting plate 161 for the conical inclined plane ventilation type activated carbon storage mechanism and the top connecting plate 162 for the conical inclined plane ventilation type activated carbon storage mechanism, an outer annular body 165 for a conical inclined plane ventilation type activated carbon storage mechanism is arranged between opposite surfaces of the bottom connecting plate 161 for the conical inclined plane ventilation type activated carbon storage mechanism and the top connecting plate 162 for the conical inclined plane ventilation type activated carbon storage mechanism, an inner annular body 166 for a conical inclined plane ventilation type activated carbon storage mechanism is arranged in the inner side of the outer annular body 165 for the conical inclined plane ventilation type activated carbon storage mechanism, and an air reserved space 168 for a conical inclined plane ventilation type activated carbon storage mechanism is arranged on the inner side of the inner annular body 166 for the conical inclined plane ventilation type activated carbon storage mechanism, a mounting hole 1610 for a tapered inclined-surface ventilation type activated carbon storage mechanism is formed in the center of the top connecting plate 162 for the tapered inclined-surface ventilation type activated carbon storage mechanism, an activated carbon storage space 167 for the tapered inclined-surface ventilation type activated carbon storage mechanism is formed between the outer annular body 165 for the tapered inclined-surface ventilation type activated carbon storage mechanism and the inner annular body 166 for the tapered inclined-surface ventilation type activated carbon storage mechanism, and a plurality of vent holes 169 for the tapered inclined-surface ventilation type activated carbon storage mechanism are formed in the outer annular body 165 for the tapered inclined-surface ventilation type activated carbon storage mechanism and the inner annular body 166 for the tapered inclined-surface ventilation type activated carbon storage mechanism; the outer annular body 165 for the conical inclined plane breathable activated carbon storage mechanism and the inner annular body 166 for the conical inclined plane breathable activated carbon storage mechanism are inverted conical structures; the bottom connecting plate 161 for the conical inclined surface air-permeable activated carbon storage mechanism and the top connecting plate 162 for the conical inclined surface air-permeable activated carbon storage mechanism are respectively installed on the surfaces of the bottom rotating plate 14 and the top rotating plate 17, and the internally installed air suction guide mechanism 19 penetrates through the inside of the installation hole 1610 for the conical inclined surface air-permeable activated carbon storage mechanism.

Referring to fig. 4, the internally-mounted air suction guide mechanism 19 includes an internally-mounted air suction guide mechanism connecting plate 191, an internally-mounted air suction guide mechanism bolt hole 192, an internally-mounted air suction guide mechanism hollow housing 193, an internally-mounted air suction guide mechanism hollow structure 194, an internally-mounted air suction guide mechanism exhaust hole 195, an internally-mounted air suction guide mechanism intake port 196, and an internally-mounted air suction guide mechanism exhaust port 197; a plurality of internally-installed air suction guide mechanism bolt holes 192 are provided inside the connecting plate 191 for the internally-installed air suction guide mechanism, an internally-installed air suction guide mechanism hollow housing 193 of an integrated structure is provided at the center of the bottom of the connecting plate 191 for the internally-installed air suction guide mechanism, an internally-installed air suction guide mechanism hollow structure 194 communicating with the upper surface of the connecting plate 191 for the internally-installed air suction guide mechanism is provided inside the internally-installed air suction guide mechanism hollow housing 193, a plurality of internally-installed air suction guide mechanism exhaust holes 195 communicating with the external space and the internally-installed air suction guide mechanism hollow structure 194 are provided inside the side of the internally-installed air suction guide mechanism hollow housing 193, and the internally-installed air suction guide mechanism exhaust holes 195 are located in the internally-installed air suction guide mechanism hollow structure 194 for the internally-installed air suction guide mechanism An air inlet port 196 for an internal mount type air intake guide mechanism and an air outlet port 197 for an internal mount type air intake guide mechanism are formed on the side of the housing and the side located outside; the internal mounting type air intake guide mechanism inlet port 196 has a larger structural radius than the internal mounting type air intake guide mechanism outlet port 197; the connection plate 191 for the interior-mounted air intake guide mechanism is attached to the ceiling of the air purification space 3 by bolts inserted into the bolt holes 192 for the interior-mounted air intake guide mechanism.

The specific use mode is as follows: during the work of the invention, activated carbon is injected into the conical inclined surface ventilation type activated carbon storage mechanism 16, the injected amount is half of the internal volume of the conical inclined surface ventilation type activated carbon storage mechanism 16, then the driving motor 9 is started, the turbine 12 and the conical inclined surface ventilation type activated carbon storage mechanism 16 rotate rapidly under the linkage effect of the driving motor 9 and the components, at the moment, air enters, simultaneously, the activated carbon in the conical inclined surface ventilation type activated carbon storage mechanism 16 is attached, the passing air is adsorbed, and the peculiar smell is removed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. 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 (10)

1. The utility model provides a multi-purpose formula peculiar smell purifier for animal husbandry, includes main body cover (1), its characterized in that: the supporting legs are installed at the bottom of the main body shell (1), a main air inlet hole (2) is formed in the center of the top of the main body shell (1), an air reserved space (3) is formed in the bottom of the main air inlet hole (2), a driving motor installation shell (8) is installed at the center of the bottom of the main body shell (1), a driving motor (9) is installed inside the driving motor installation shell (8), a main part installation space (4) is arranged inside the main body shell (1) under the air reserved space (3), a turbine installation space (5) is arranged inside the main body shell (1) under the main part installation space (4), an auxiliary air inlet hole (6) which is communicated with one side of the bottom of the air reserved space (3) and an air inlet end of the turbine installation space (5) is formed inside the main body shell (1), the main body shell (1) is internally provided with a main exhaust hole (7) communicated with an external space and an exhaust end of a turbine installation space (5), a motor spindle (11) in a driving motor (9) penetrates through the turbine installation space (5), the motor spindle (11) is positioned on a shaft body in the turbine installation space (5) to install a turbine (12), the motor spindle (11) is positioned at one end in the main component installation space (4) to install a gear set meshing type speed and strength conversion mechanism (15), a main rotating shaft (13) is installed at the top center of the gear set meshing type speed and strength conversion mechanism (15), the main rotating shaft (13) is positioned at one end in the air reserved space (3) to install a bottom rotating plate (14), the upper surface of the bottom rotating plate (14) is connected with a top rotating plate (17) through a conical inclined surface ventilation type activated carbon storage mechanism (16), the center of the top rotating plate (17) is provided with a component mounting hole (18), and an internal mounting type air suction guiding mechanism (19) is mounted in the component mounting hole (18) through a main bearing (10).

2. The multi-purpose odor purification device for animal husbandry of claim 1, wherein: the gear set meshing type speed and strength conversion mechanism (15) comprises a hollow shell (151) for the gear set meshing type speed and strength conversion mechanism, a hollow structure (152) for the gear set meshing type speed and strength conversion mechanism, a first rotating shaft (153) for the gear set meshing type speed and strength conversion mechanism, a bearing (154) for the gear set meshing type speed and strength conversion mechanism and a second rotating shaft (155) for the gear set meshing type speed and strength conversion mechanism, a third rotating shaft (157) for the gear-set meshing type speed and intensity converting mechanism, a first gear (158) for the gear-set meshing type speed and intensity converting mechanism, a second gear (159) for the gear-set meshing type speed and intensity converting mechanism, a third gear (1510) for the gear-set meshing type speed and intensity converting mechanism, and a fourth gear (1511) for the gear-set meshing type speed and intensity converting mechanism; a hollow structure (152) for the gear set meshing type speed and strength conversion mechanism is arranged inside the hollow shell (151) for the gear set meshing type speed and strength conversion mechanism, a first rotating shaft (153) for the gear set meshing type speed and strength conversion mechanism is installed at the bottom center of the hollow shell (151) for the gear set meshing type speed and strength conversion mechanism through a bearing (154) for the gear set meshing type speed and strength conversion mechanism, a third rotating shaft (157) for the gear set meshing type speed and strength conversion mechanism is installed at the top center of the hollow shell (151) for the gear set meshing type speed and strength conversion mechanism through a bearing (154) for the gear set meshing type speed and strength conversion mechanism, and a second rotating shaft (157) for the gear set meshing type speed and strength conversion mechanism is installed on the side surface of the hollow shell (151) for the gear set meshing type speed and strength conversion mechanism through a bearing (154) for the gear set meshing type speed and strength conversion mechanism A shaft (155), a second gear (159) for the gear-set meshing type speed and intensity conversion mechanism and a third gear (1510) for the gear-set meshing type speed and intensity conversion mechanism are mounted on a shaft body of the second rotating shaft (155) for the gear-set meshing type speed and intensity conversion mechanism, a first gear (158) for the gear-set meshing type speed and intensity conversion mechanism and a fourth gear (1511) for the gear-set meshing type speed and intensity conversion mechanism are mounted on a top end of the first rotating shaft (153) for the gear-set meshing type speed and intensity conversion mechanism and a bottom end of the third rotating shaft (157) for the gear-set meshing type speed and intensity conversion mechanism, respectively, and the first gear (158) for the gear-set meshing type speed and intensity conversion mechanism meshes with a tooth structure between the second gear (159) for the gear-set meshing type speed and intensity conversion mechanism, the third gear (1510) for the gear set mesh type speed and intensity conversion mechanism and the tooth structure between the fourth gear (1511) for the gear set mesh type speed and intensity conversion mechanism are meshed.

3. The multi-purpose odor purification device for animal husbandry of claim 2, wherein: the structure radius of the reference circle of the first gear (158) for the gear set meshing type speed and strength conversion mechanism is smaller than the structure radius of the reference circle of the second gear (159) for the gear set meshing type speed and strength conversion mechanism, the structure radius of the reference circle of the second gear (159) for the gear set meshing type speed and strength conversion mechanism is larger than the structure radius of the reference circle of the third gear (1510) for the gear set meshing type speed and strength conversion mechanism, and the structure radius of the reference circle of the fourth gear (1511) for the gear set meshing type speed and strength conversion mechanism is smaller than the structure radius of the reference circle of the third gear (1510) for the gear set meshing type speed and strength conversion mechanism.

4. The multi-purpose odor purification device for animal husbandry of claim 2, wherein: the bottom end of a first rotating shaft (153) for the gear set meshing type speed and strength conversion mechanism and the top end of a third rotating shaft (157) for the gear set meshing type speed and strength conversion mechanism are fixedly connected with the top end of a motor spindle (10) and the bottom end of a main rotating shaft (16) respectively.

5. The multi-purpose odor purification device for animal husbandry of claim 1, wherein: the conical inclined surface ventilation type activated carbon storage mechanism (16) comprises a bottom connecting plate (161) for the conical inclined surface ventilation type activated carbon storage mechanism, a top connecting plate (162) for the conical inclined surface ventilation type activated carbon storage mechanism, a bottom bolt hole (163) for the conical inclined surface ventilation type activated carbon storage mechanism, a top bolt hole (164) for the conical inclined surface ventilation type activated carbon storage mechanism and an external annular body (165) for the conical inclined surface ventilation type activated carbon storage mechanism, an inner annular body (166) for a conical inclined surface ventilation type activated carbon storage mechanism, an activated carbon storage space (167) for the conical inclined surface ventilation type activated carbon storage mechanism, an air reserved space (168) for the conical inclined surface ventilation type activated carbon storage mechanism, a vent hole (169) for the conical inclined surface ventilation type activated carbon storage mechanism, a mounting hole (1610) for the conical inclined surface ventilation type activated carbon storage mechanism and an activated carbon feeding hole (1611) for the conical inclined surface ventilation type activated carbon storage mechanism; the bottom connecting plate (161) for the conical inclined plane breathable activated carbon storage mechanism and the top connecting plate (162) for the conical inclined plane breathable activated carbon storage mechanism are respectively provided with a bottom bolt hole (163) for the conical inclined plane breathable activated carbon storage mechanism and a top bolt hole (164) for the conical inclined plane breathable activated carbon storage mechanism in the inner part of the top connecting plate (162) for the conical inclined plane breathable activated carbon storage mechanism, a conical inclined plane breathable activated carbon storage mechanism external annular body (165) is arranged between opposite surfaces of the bottom connecting plate (161) for the conical inclined plane breathable activated carbon storage mechanism and the top connecting plate (162) for the conical inclined plane breathable activated carbon storage mechanism, a conical inclined plane breathable activated carbon storage mechanism internal annular body (166) is arranged in the inner side of the conical inclined plane breathable activated carbon storage mechanism internal annular body (166), and the conical inclined plane breathable activated carbon storage mechanism internal annular body (166) is provided with a conical inclined plane breathable activated carbon storage mechanism internal annular body Air headspace (168), the center that ventilative formula active carbon of toper inclined plane stored mechanism was used top connecting plate (162) is provided with ventilative formula active carbon of toper inclined plane and stores mounting hole (1610) for the mechanism, ventilative formula active carbon of toper inclined plane stores and is provided with ventilative formula active carbon of toper inclined plane between mechanism and use inside ring body (166) with ventilative formula active carbon of toper inclined plane and store mechanism and use active carbon storage space (167), ventilative formula active carbon of toper inclined plane stores mechanism and use inside of inside ring body (166) with outside ring body (165) and ventilative formula active carbon of toper inclined plane and be provided with a plurality of ventilative formula active carbon of toper inclined plane and store mechanism and use air vent (169).

6. The multi-purpose odor purification device for animal husbandry of claim 5, wherein: the outer annular body (165) for the conical inclined plane breathable activated carbon storage mechanism and the inner annular body (166) for the conical inclined plane breathable activated carbon storage mechanism are of inverted conical structures.

7. The multi-purpose odor purification device for animal husbandry of claim 5, wherein: ventilative formula active carbon of toper inclined plane is stored mechanism and is installed respectively on the surface of bottom rotor plate (14) and top rotor plate (17) with top connecting plate (162) with bottom connecting plate (161) and ventilative formula active carbon of toper inclined plane is stored mechanism, the ventilative formula active carbon of toper inclined plane is stored mechanism and is run through inside installation formula air suction guiding mechanism (19) inside with mounting hole (1610).

8. The multi-purpose odor purification device for animal husbandry of claim 1, wherein: the internally-mounted air suction guide mechanism (19) comprises a connecting plate (191) for the internally-mounted air suction guide mechanism, a bolt hole (192) for the internally-mounted air suction guide mechanism, a hollow housing (193) for the internally-mounted air suction guide mechanism, a hollow structure (194) for the internally-mounted air suction guide mechanism, an exhaust hole (195) for the internally-mounted air suction guide mechanism, an air inlet port (196) for the internally-mounted air suction guide mechanism and an exhaust port (197) for the internally-mounted air suction guide mechanism; a plurality of bolt holes (192) for the internally-mounted air suction guide mechanism are arranged in the connecting plate (191) for the internally-mounted air suction guide mechanism, a hollow shell (193) for the internally-mounted air suction guide mechanism with an integrated structure is arranged at the center of the bottom of the connecting plate (191) for the internally-mounted air suction guide mechanism, a hollow structure (194) for the internally-mounted air suction guide mechanism communicated with the upper surface of the connecting plate (191) for the internally-mounted air suction guide mechanism is arranged in the hollow shell (193) for the internally-mounted air suction guide mechanism, a plurality of vent holes (195) for the internally-mounted air suction guide mechanism communicated with the external space and the hollow structure (194) for the internally-mounted air suction guide mechanism are arranged in the side surface of the hollow shell (193) for the internally-mounted air suction guide mechanism, the air discharge hole (195) for the interior-mounted air suction guide mechanism is formed with an air inlet port (196) for the interior-mounted air suction guide mechanism and an air discharge port (197) for the interior-mounted air suction guide mechanism, respectively, on the side of the hollow structure (194) for the interior-mounted air suction guide mechanism and on the side of the exterior.

9. The multi-purpose odor purifying device for animal husbandry of claim 8, wherein: the structure radius of the air inlet port (196) for the internal installation type air suction guiding mechanism is larger than the structure radius of the air outlet port (197) for the internal installation type air suction guiding mechanism.

10. The multi-purpose odor purifying device for animal husbandry of claim 8, wherein: the connection plate (191) for the interior-mounted air intake guide mechanism is attached to the top of the air purification space (3) by means of bolts inserted into the bolt holes (192) for the interior-mounted air intake guide mechanism.

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