CN111121061A - Oil ejector for clay incineration - Google Patents

Abstract

The invention discloses an oil ejector for clay incineration. The device can perform surface oil injection on the sludge in the continuous conveying process, and simultaneously, the rotating and stirring capacity of the helical blades is utilized to perform deep oil injection on the soil in the device, so that the incineration degree is improved.

Description

Oil ejector for clay incineration

Technical Field

The invention relates to the technical field of sludge incineration, in particular to an oil ejector for sludge incineration.

Background

At present, along with the increasing of garbage, the treatment mode is also classified, the treatment of sludge is incineration, the incineration is troublesome in the garbage incineration place, the necessary incineration is to add oil to the dried sludge, so that the sludge can be incinerated, and the general mode is to directly pour a large amount of diesel oil on the surface of the sludge, so that the waste degree of the diesel oil is large, the mixing degree is not high, and the limitation of the general oil injector is large.

Disclosure of Invention

The invention aims to provide an oil injector for burning soil, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a grease squirt for burning soil comprises a bottom mounting substrate, wherein a main vertical plate is mounted on one side of the upper surface of the bottom mounting substrate, a gear set meshed type rotating strength effective reinforcing mechanism is mounted on the other side of the upper surface of the bottom mounting substrate, a turbine mounting base is mounted in the middle of the upper surface of the bottom mounting substrate, a turbine mounting shell is mounted at the top of the turbine mounting base, a turbine mounting space is arranged in the center of the turbine mounting shell, a main liquid inlet hole and a main liquid outlet hole which are of an integrated structure with the turbine mounting shell are respectively arranged on two sides of the turbine mounting shell, a turbine mounting shaft is mounted in the center of the turbine mounting shell through a bearing, a turbine is mounted on a shaft body positioned in the turbine mounting space on the turbine mounting shaft, and a main rotating shaft and an auxiliary rotating shaft are respectively mounted on two sides of the gear set meshed type rotating, a shaft body connecting flange plate is installed at the end part of the auxiliary rotating shaft, a cylindrical hollow shell is installed at the end part of the main rotating shaft, an earth conveying and stirring space is arranged at the center inside the cylindrical hollow shell, a funnel shell is installed at one side of the gear set meshing type rotating strength effective strengthening mechanism, a funnel space is arranged inside the funnel shell, a main shaft sleeve structure which is integrated with the funnel shell is arranged at the bottom of the funnel shell, the center of the main shaft sleeve structure is installed on the shell at one side of the cylindrical hollow shell through a main bearing, earth falling holes communicated with the funnel space are arranged inside the cylindrical hollow shell and the main shaft sleeve structure, spiral blades are arranged inside the earth conveying and stirring space of the cylindrical hollow shell, a hollow shaft body installing oil liquid injection mechanism is installed at the center of the top of the main vertical plate through a bearing, hollow axis body installation formula fluid injection mechanism extends to the inside center of earth transport stirring space, just hollow axis body installation formula fluid injection mechanism is carrying the fixed spacing formula rotary mechanism of a rotatory axis body in the one end installation that stirs the space inside being located earth, hollow axis body installation formula fluid injection mechanism and main drainage hole between through the fluid hose intercommunication.

Further, the gear set meshing type effective rotation strength enhancing mechanism comprises a hollow shell for the gear set meshing type effective rotation strength enhancing mechanism, a hollow structure for the gear set meshing type effective rotation strength enhancing mechanism, a first rotating shaft for the gear set meshing type effective rotation strength enhancing mechanism, a bearing for the gear set meshing type effective rotation strength enhancing mechanism, a second rotating shaft for the gear set meshing type effective rotation strength enhancing mechanism, a third rotating shaft for the gear set meshing type effective rotation strength enhancing mechanism, a first gear for the gear set meshing type effective rotation strength enhancing mechanism, a second gear for the gear set meshing type effective rotation strength enhancing mechanism, a third gear for the gear set meshing type effective rotation strength enhancing mechanism and a fourth gear for the gear set meshing type effective rotation strength enhancing mechanism; the hollow shell for the gear set meshing type rotation strength effective enhancement mechanism is internally provided with a hollow structure for the gear set meshing type rotation strength effective enhancement mechanism, the center of the bottom of the hollow shell for the gear set meshing type rotation strength effective enhancement mechanism is provided with a first rotating shaft for the gear set meshing type rotation strength effective enhancement mechanism through a bearing for the gear set meshing type rotation strength effective enhancement mechanism, the center of the top of the hollow shell for the gear set meshing type rotation strength effective enhancement mechanism is provided with a third rotating shaft for the gear set meshing type rotation strength effective enhancement mechanism through a bearing for the gear set meshing type rotation strength effective enhancement mechanism, the side surface of the hollow shell for the gear set meshing type rotation strength effective enhancement mechanism is provided with a second rotating shaft for the gear set meshing type rotation strength effective enhancement mechanism through a bearing for the gear set meshing type rotation strength effective enhancement mechanism, a second gear for the gear set meshing type rotation intensity effective enhancement mechanism and a third gear for the gear set meshing type rotation intensity effective enhancement mechanism are mounted on a shaft body of a second rotating shaft for the gear set meshing type rotation intensity effective enhancement mechanism, a first gear for the gear set meshing type rotation intensity effective enhancement mechanism and a fourth gear for the gear set meshing type rotation intensity effective enhancement mechanism are respectively mounted at the top end of a first rotating shaft for the gear set meshing type rotation intensity effective enhancement mechanism and the bottom end of a third rotating shaft for the gear set meshing type rotation intensity effective enhancement mechanism, a tooth structure between the first gear for the gear set meshing type rotation intensity effective enhancement mechanism and the second gear for the gear set meshing type rotation intensity effective enhancement mechanism is meshed, and a tooth structure between the third gear for the gear set meshing type rotation intensity effective enhancement mechanism and the fourth gear for the gear set meshing type rotation intensity effective enhancement mechanism is meshed And (6) mixing.

Furthermore, the structure radius of the first gear reference circle for the gear set meshing type effective enhancement mechanism for rotation strength is smaller than the structure radius of the second gear reference circle for the gear set meshing type effective enhancement mechanism for rotation strength, the structure radius of the second gear reference circle for the gear set meshing type effective enhancement mechanism for rotation strength is larger than the structure radius of the third gear reference circle for the gear set meshing type effective enhancement mechanism for rotation strength, and the structure radius of the third gear for the gear set meshing type effective enhancement mechanism for rotation strength is smaller than the structure radius of the fourth gear reference circle for the gear set meshing type effective enhancement mechanism for rotation strength.

Furthermore, the end part of the first rotating shaft for the gear set meshing type rotation intensity effective enhancement mechanism and the end part of the third rotating shaft for the gear set meshing type rotation intensity effective enhancement mechanism are respectively and fixedly connected with the end parts of the main second rotating shaft and the main first rotating shaft.

Further, the hollow shaft body mounting type oil injection mechanism comprises a hollow rod body for the hollow shaft body mounting type oil injection mechanism, a central hole for the hollow shaft body mounting type oil injection mechanism, an injection pipeline for the hollow shaft body mounting type oil injection mechanism, an injection hole for the hollow shaft body mounting type oil injection mechanism, a discharge pipeline for the hollow shaft body mounting type oil injection mechanism, a discharge hole for the hollow shaft body mounting type oil injection mechanism and a mist-shaped injection head for the hollow shaft body mounting type oil injection mechanism; the center of the hollow rod body for the hollow shaft body installation type oil injection mechanism is provided with a center hole for the hollow shaft body installation type oil injection mechanism, the side surface of one end of the hollow rod body for the hollow shaft body installation type oil injection mechanism is provided with an injection pipeline for the hollow shaft body installation type oil injection mechanism which is integrated with the hollow rod body installation type oil injection mechanism, the rod body at the other end of the hollow rod body for the hollow shaft body installation type oil injection mechanism is provided with a plurality of discharge pipelines for the hollow shaft body installation type oil injection mechanism which is integrated with the hollow rod body installation type oil injection mechanism, the injection hole for the hollow shaft body installation type oil injection mechanism and the discharge hole for the hollow shaft body installation type oil injection mechanism are respectively arranged inside the discharge pipeline for the hollow shaft body installation type oil, and the inside of the discharge hole for the hollow shaft body installation type oil injection spraying mechanism is provided with a mist-shaped spraying head for the hollow shaft body installation type oil injection spraying mechanism.

Furthermore, the hollow shaft body installation type oil injection mechanism is fixedly connected with one end of the liquid hose through an injection pipeline.

Further, the hollow shaft body for the hollow shaft body installation type oil injection mechanism is arranged inside the fixed limiting type rotating mechanism of the rotating shaft body at a position between the injection pipeline for the hollow shaft body installation type oil injection mechanism and the discharge pipeline for the hollow shaft body installation type oil injection mechanism.

Further, the rotating shaft body fixed limiting type rotating mechanism comprises a shaft sleeve for the rotating shaft body fixed limiting type rotating mechanism, a mounting hole for the rotating shaft body fixed limiting type rotating mechanism, a bearing for the rotating shaft body fixed limiting type rotating mechanism, a connecting rod for the rotating shaft body fixed limiting type rotating mechanism and a fixing plate for the rotating shaft body fixed limiting type rotating mechanism; the center of the shaft sleeve for the fixed limiting type rotating mechanism of the rotating shaft body is provided with a mounting hole for the fixed limiting type rotating mechanism of the rotating shaft body, the inner part of the shaft sleeve for the fixed limiting type rotating mechanism of the rotating shaft body is positioned at two ends of the mounting hole for the fixed limiting type rotating mechanism of the rotating shaft body, bearings for the fixed limiting type rotating mechanism of the rotating shaft body are respectively arranged at two ends of the mounting hole for the fixed limiting type rotating mechanism of the rotating shaft body, two opposite connecting rods for the fixed limiting type rotating mechanism of the rotating shaft body are arranged at the outer side of the shaft sleeve for the fixed limiting type rotating mechanism of the rotating shaft body, and two fixed plates for.

Furthermore, the inner ring of the bearing for the fixed limiting type rotating mechanism of the rotating shaft body is provided with a rod body of a hollow rod body for the hollow shaft body installation type oil injection mechanism.

Furthermore, the fixed limiting type rotating mechanism for the rotating shaft body is installed in the inner wall of one end of the soil stirring and conveying space.

Compared with the prior art, the invention has the beneficial effects that: the device can perform surface oil injection on the sludge in the continuous conveying process, and simultaneously, the rotating and stirring capacity of the helical blades is utilized to perform deep oil injection on the soil in the device, so that the incineration degree is improved.

Drawings

FIG. 1 is a schematic view of a full-sectional structure of an oil feeder for incineration of soil according to the present invention;

FIG. 2 is a schematic structural diagram of a meshing type rotation strength effective enhancement mechanism of a gear set in the oil injector for burning soil according to the invention;

FIG. 3 is a schematic structural view of a hollow shaft body mounting type oil injection mechanism in the oil ejector for burning clay according to the present invention;

FIG. 4 is a schematic structural view of a rotating shaft fixing limiting type rotating mechanism in the oil injector for burning soil according to the present invention;

in the figure: 1, a bottom mounting base plate, 2, a main upright plate, 3, a gear set meshing type rotation strength effective enhancing mechanism, 31, a hollow shell for the gear set meshing type rotation strength effective enhancing mechanism, 32, a hollow structure for the gear set meshing type rotation strength effective enhancing mechanism, 33, a first rotating shaft for the gear set meshing type rotation strength effective enhancing mechanism, 34, a bearing for the gear set meshing type rotation strength effective enhancing mechanism, 35, a second rotating shaft for the gear set meshing type rotation strength effective enhancing mechanism, 36, a third rotating shaft for the gear set meshing type rotation strength effective enhancing mechanism, 37, a first gear for the gear set meshing type rotation strength effective enhancing mechanism, 38, a second gear for the gear set meshing type rotation strength effective enhancing mechanism, 39, a third gear for the gear set meshing type rotation strength effective enhancing mechanism, 310, and a fourth gear for the gear set meshing type rotation strength effective enhancing mechanism, 4, a main rotating shaft, 5, an auxiliary rotating shaft, 6, a hollow shaft installation type oil injection mechanism, 61, a hollow shaft installation type oil injection mechanism hollow rod body, 62, a hollow shaft installation type oil injection mechanism central hole, 63, a hollow shaft installation type oil injection mechanism injection pipeline, 64, a hollow shaft installation type oil injection mechanism injection hole, 65, a hollow shaft installation type oil injection mechanism discharge pipeline, 66, a hollow shaft installation type oil injection mechanism discharge hole, 67, a hollow shaft installation type oil injection mechanism mist injection head, 7, a columnar hollow shell, 8, an earth conveying and stirring space, 9, a rotating shaft fixed limit type rotating mechanism, 91, a rotating shaft fixed limit type rotating mechanism shaft sleeve, 92, a rotating shaft fixed limit type rotating mechanism mounting hole, 93, a bearing for a fixed limit type rotating mechanism of a rotating shaft body, 94, a connecting rod for the fixed limit type rotating mechanism of the rotating shaft body, 95, a fixed plate for the fixed limit type rotating mechanism of the rotating shaft body, 10, helical blades, 11, soil falling holes, 12, a main shaft sleeve structure, 13, a funnel shell, 14, a funnel space, 15, a turbine mounting base, 16, a turbine mounting shell, 17, a turbine mounting space, 18, a main liquid inlet hole, 19, a main liquid discharge hole, 20, a turbine mounting shaft, 21, a turbine, 22 and a liquid hose.

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 bottom mounting base plate 1, wherein a main vertical plate 2 is mounted on one side of the upper surface of the bottom mounting base plate 1, a gear set meshed type rotating strength effective enhancing mechanism 3 is mounted on the other side of the upper surface of the bottom mounting base plate 1, a turbine mounting base 15 is mounted in the middle of the upper surface of the bottom mounting base plate 1, a turbine mounting shell 16 is mounted at the top of the turbine mounting base 15, a turbine mounting space 17 is arranged at the center of the turbine mounting shell 16, a main liquid inlet hole 18 and a main liquid outlet hole 19 which are integrated with the turbine mounting shell 16 are respectively arranged on two sides of the turbine mounting shell 16, a turbine mounting shaft 20 is mounted in the center of the turbine mounting shell 16 through a bearing, a turbine 21 is mounted on a shaft body positioned in the turbine mounting space 17, and a main rotating shaft 4 and an auxiliary rotating shaft 5 are respectively mounted on two sides of the gear set meshed type rotating strength, a shaft body connecting flange plate is installed at the end part of the auxiliary rotating shaft 5, a cylindrical hollow shell 7 is installed at the end part of the main rotating shaft 4, an earth conveying and stirring space 8 is arranged at the center inside the cylindrical hollow shell 7, a funnel shell 13 is installed at one side of the gear set meshing type rotating strength effective reinforcing mechanism 3, a funnel space 14 is arranged inside the funnel shell 13, a main shaft sleeve structure 12 which is integrated with the funnel shell 13 is arranged at the bottom of the funnel shell 13, the center of the main shaft sleeve structure 12 is installed on a shell at one side of the cylindrical hollow shell 7 through a main bearing, earth falling holes 11 which are communicated with the funnel space 14 are arranged inside the cylindrical hollow shell 7 and the main shaft sleeve structure 12, spiral blades 10 are arranged inside the earth conveying and stirring space 8, a hollow shaft body installation type oil injection and injection mechanism 6 is installed at the center at the top of the main vertical plate 2 through a bearing, hollow axis body installation formula fluid injection mechanism 6 extends to earth and carries 8 inside centers in stirring space, just hollow axis body installation formula fluid injection mechanism 6 is carrying the fixed spacing formula rotary mechanism 9 of a rotatory axis body in the one end installation that stirs space 8 inside at the earth, through fluid hose 22 intercommunication between hollow axis body installation formula fluid injection mechanism 6 and the main drain hole 19.

Referring to fig. 2, the effective gear-set meshing-type rotation strength enhancing mechanism 3 includes a hollow housing 31 for the effective gear-set meshing-type rotation strength enhancing mechanism, a hollow structure 32 for the effective gear-set meshing-type rotation strength enhancing mechanism, a first rotating shaft 33 for the effective gear-set meshing-type rotation strength enhancing mechanism, a bearing 34 for the effective gear-set meshing-type rotation strength enhancing mechanism, and a second rotating shaft 35 for the effective gear-set meshing-type rotation strength enhancing mechanism, a third rotation shaft 37 for a gear train meshing type rotation intensity effective reinforcement mechanism, a first gear 38 for a gear train meshing type rotation intensity effective reinforcement mechanism, a second gear 39 for a gear train meshing type rotation intensity effective reinforcement mechanism, a third gear 310 for a gear train meshing type rotation intensity effective reinforcement mechanism, and a fourth gear 311 for a gear train meshing type rotation intensity effective reinforcement mechanism; a hollow structure 32 for the gear-set meshing type effective rotational strength enhancing mechanism is provided inside the hollow housing 31 for the gear-set meshing type effective rotational strength enhancing mechanism, a first rotating shaft 33 for the gear-set meshing type effective rotational strength enhancing mechanism is mounted at the center of the bottom of the hollow housing 31 for the gear-set meshing type effective rotational strength enhancing mechanism through a bearing 34 for the gear-set meshing type effective rotational strength enhancing mechanism, a third rotating shaft 37 for the gear-set meshing type effective rotational strength enhancing mechanism is mounted at the center of the top of the hollow housing 31 for the gear-set meshing type effective rotational strength enhancing mechanism through a bearing 34 for the gear-set meshing type effective rotational strength enhancing mechanism, a second rotating shaft 35 for the gear-set meshing type effective rotational strength enhancing mechanism is mounted at the side of the hollow housing 31 for the gear-set meshing type effective rotational strength enhancing mechanism through the bearing 34 for the gear-set meshing type effective rotational strength enhancing mechanism, a second gear 39 for the gear-set meshing type rotation intensity effective reinforcing mechanism and a third gear 310 for the gear-set meshing type rotation intensity effective reinforcing mechanism are mounted on a shaft body of the second rotating shaft 35 for the gear-set meshing type rotation intensity effective reinforcing mechanism, a first gear 38 for the gear-set meshing type rotation intensity effective reinforcing mechanism and a fourth gear 311 for the gear-set meshing type rotation intensity effective reinforcing mechanism are mounted at the top end of the first rotating shaft 33 for the gear-set meshing type rotation intensity effective reinforcing mechanism and the bottom end of the third rotating shaft 37 for the gear-set meshing type rotation intensity effective reinforcing mechanism respectively, the first gear 38 for the gear-set meshing type rotation intensity effective reinforcing mechanism is meshed with a tooth structure between the second gear 39 for the gear-set meshing type rotation intensity effective reinforcing mechanism, and the third gear 310 for the gear-set meshing type rotation intensity effective reinforcing mechanism and the fourth tooth structure for the gear-set meshing type rotation intensity effective reinforcing mechanism are meshed with each other The tooth structures between the wheels 311 are meshed; the structure radius of the reference circle of the first gear 38 for the gear set meshing type effective enhancement mechanism of the rotation intensity is smaller than the structure radius of the reference circle of the second gear 39 for the gear set meshing type effective enhancement mechanism of the rotation intensity, the structure radius of the reference circle of the second gear 39 for the gear set meshing type effective enhancement mechanism of the rotation intensity is larger than the structure radius of the reference circle of the third gear 310 for the gear set meshing type effective enhancement mechanism of the rotation intensity, and the structure radius of the third gear 310 for the gear set meshing type effective enhancement mechanism of the rotation intensity is smaller than the structure radius of the reference circle of the fourth gear 311 for the gear set meshing type effective enhancement mechanism of the rotation intensity; the end of the first rotating shaft 33 for the gear set meshing type rotation intensity effective enhancement mechanism and the end of the third rotating shaft 37 for the gear set meshing type rotation intensity effective enhancement mechanism are respectively and fixedly connected with the ends of the main second rotating shaft 5 and the main first rotating shaft 4, and the main functions of the gear set meshing type rotation intensity effective enhancement mechanism are as follows: the effect of enhancing the rotation strength can be realized by the principle that the gear radii are different.

Referring to fig. 3, the hollow-shaft-mounted oil injection mechanism 6 includes a hollow shaft body 61 for a hollow-shaft-mounted oil injection mechanism, a central hole 62 for a hollow-shaft-mounted oil injection mechanism, an injection pipe 63 for a hollow-shaft-mounted oil injection mechanism, an injection hole 64 for a hollow-shaft-mounted oil injection mechanism, a discharge pipe 65 for a hollow-shaft-mounted oil injection mechanism, a discharge hole 66 for a hollow-shaft-mounted oil injection mechanism, and a mist-type injection head 67 for a hollow-shaft-mounted oil injection mechanism; a hollow shaft body installation type oil injection mechanism central hole 62 is arranged at the center of the hollow shaft body 61 for the hollow shaft body installation type oil injection mechanism, an injection pipeline 63 which is integrated with the hollow shaft body installation type oil injection mechanism is arranged on the side surface of one end of the hollow shaft body 61 for the hollow shaft body installation type oil injection mechanism, a plurality of discharge pipelines 65 which are integrated with the hollow shaft body installation type oil injection mechanism and are used for the hollow shaft body installation type oil injection mechanism are arranged on the shaft body of the other end of the hollow shaft body installation type oil injection mechanism hollow shaft body 61, a hollow shaft body installation type oil injection mechanism injection hole 64 and a hollow shaft body installation type oil injection mechanism discharge hole 66 are respectively arranged in the hollow shaft body installation type oil injection mechanism injection pipeline 63 and the hollow shaft body installation type oil injection mechanism discharge pipeline 65, a hollow shaft mounting type mist spray head 67 for the oil injection mechanism is mounted inside the discharge hole 66 for the oil injection mechanism; the hollow shaft body installation type oil injection mechanism is fixedly connected with one end of the liquid hose 22 through an injection pipeline 63; hollow axis body installation formula fluid is injected the hollow body of rod 61 for the injection mechanism and is being located hollow axis body installation formula fluid and inject the body of rod between injection pipe 63 for the injection mechanism and hollow axis body installation formula fluid injection emission pipeline 65 for the injection mechanism and install inside the fixed spacing formula rotary mechanism 9 of rotatory axis body, and its main action is: the jetting treatment can be performed deep into the space.

Referring to fig. 4, the rotating shaft fixed limit type rotating mechanism 9 includes a shaft sleeve 91 for the rotating shaft fixed limit type rotating mechanism, a mounting hole 92 for the rotating shaft fixed limit type rotating mechanism, a bearing 93 for the rotating shaft fixed limit type rotating mechanism, a connecting rod 94 for the rotating shaft fixed limit type rotating mechanism, and a fixing plate 95 for the rotating shaft fixed limit type rotating mechanism; a mounting hole 92 for a rotary shaft body fixed limiting type rotating mechanism is formed in the center of the shaft sleeve 91 for the rotary shaft body fixed limiting type rotating mechanism, bearings 93 for the rotary shaft body fixed limiting type rotating mechanism are mounted at two ends of the mounting hole 92 for the rotary shaft body fixed limiting type rotating mechanism inside the shaft sleeve 91 for the rotary shaft body fixed limiting type rotating mechanism, two opposite connecting rods 94 for the rotary shaft body fixed limiting type rotating mechanism are mounted on the outer side of the shaft sleeve 91 for the rotary shaft body fixed limiting type rotating mechanism, and a fixing plate 95 for the rotary shaft body fixed limiting type rotating mechanism is mounted at the end part of each connecting rod 94 for the rotary shaft body fixed limiting type rotating mechanism; the inner ring of the bearing 93 for the rotary shaft body fixed limiting type rotary mechanism is provided with a rod body of the hollow rod body 61 for the hollow shaft body installation type oil injection mechanism; fixed plate 95 for the fixed spacing formula rotary mechanism of rotatory axis body is installed in the inner wall of 8 one ends in earth stirring transport space, and its main function is: can carry out spacing fixed to the body of rod, can not influence the normal rotation effect of shell again simultaneously.

The specific use mode is as follows: during the operation of the invention, the shaft body mounting flange is fixedly connected with a motor spindle of a driving motor, then soil is poured into the funnel-shaped space 14, the driving motor is opened, at the moment, the cylindrical hollow shell 7 drives the helical blade 10 to rotate, so that the fallen soil can be continuously conveyed and stirred, the soil can roll while being stirred, meanwhile, the liquid injection pipeline 18 is connected with an oil discharge port of a liquid storage chamber, meanwhile, the driving motor connected with the main third rotating shaft 20 is opened, under the rotation action of the turbine 21, the liquid can be continuously injected into the hollow shaft body mounting oil liquid injection mechanism 6, the liquid can be injected due to the large pressure of the liquid, the oil is injected to the rolled soil, and the soil can be discharged through gaps after the injection is finished.

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 native for burning grease squirt, includes bottom mounting substrate (1), its characterized in that: a main vertical plate (2) is arranged on one side of the upper surface of the bottom mounting base plate (1), a gear set meshed type rotating strength effective enhancing mechanism (3) is arranged on the other side of the upper surface of the bottom mounting base plate (1), a turbine mounting base (15) is arranged in the middle of the upper surface of the bottom mounting base plate (1), a turbine mounting shell (16) is arranged at the top of the turbine mounting base (15), a turbine mounting space (17) is arranged in the center of the turbine mounting shell (16), a main liquid inlet hole (18) and a main liquid outlet hole (19) which are integrated with the turbine mounting shell (16) in structure are respectively arranged on two sides of the turbine mounting shell (16), a turbine mounting shaft (20) is arranged in the center of the turbine mounting shell (16) through a bearing, and a turbine (21) is arranged on a shaft body positioned in the turbine mounting space (17) on the turbine mounting shaft, main rotation axis (4) and vice rotation axis (5) are installed respectively to the both sides of the effective reinforcing mechanism of gear train engaged type rotary strength (3), a shaft body flange dish is installed to the tip of vice rotation axis (5), a cylindrical hollow shell (7) of tip installation of main rotation axis (4), the inside center of cylindrical hollow shell (7) is provided with earth and carries stirring space (8), a side-mounting funnel shell (13) of the effective reinforcing mechanism of gear train engaged type rotary strength (3), the inside funnel space (14) that is provided with of funnel shell (13), the bottom of funnel shell (13) is provided with main shaft cover structure (12) rather than the integral type structure, the center of main shaft cover structure (12) is installed on the shell of cylindrical hollow shell (7) one side through the base bearing, the inside of cylindrical hollow shell (7) and main shaft cover structure (12) is provided with the earth that communicates funnel space (14) and falls The hand-held type oil injection device comprises a hole (11), wherein a columnar hollow shell (7) is located inside an earth conveying and stirring space (8) and is provided with a helical blade (10), a bearing installation hollow shaft body installation type oil injection mechanism (6) is arranged at the center of the top of a main vertical plate (2), the hollow shaft body installation type oil injection mechanism (6) extends to the center of the earth conveying and stirring space (8) and is fixed and limited by a rotating shaft body rotating mechanism (9) at one end of the earth conveying and stirring space (8), and the hollow shaft body installation type oil injection mechanism (6) is communicated with a main drainage hole (19) through a liquid hose (22).

2. The oil filler for soil incineration according to claim 1, wherein: the gear set meshing type rotation intensity effective enhancement mechanism (3) comprises a hollow shell (31) for the gear set meshing type rotation intensity effective enhancement mechanism, a hollow structure (32) for the gear set meshing type rotation intensity effective enhancement mechanism, a first rotating shaft (33) for the gear set meshing type rotation intensity effective enhancement mechanism, a bearing (34) for the gear set meshing type rotation intensity effective enhancement mechanism and a second rotating shaft (35) for the gear set meshing type rotation intensity effective enhancement mechanism, a third rotating shaft (37) for a gear-set meshing type rotation intensity effective reinforcing mechanism, a first gear (38) for a gear-set meshing type rotation intensity effective reinforcing mechanism, a second gear (39) for a gear-set meshing type rotation intensity effective reinforcing mechanism, a third gear (310) for a gear-set meshing type rotation intensity effective reinforcing mechanism and a fourth gear (311) for a gear-set meshing type rotation intensity effective reinforcing mechanism; the hollow shell (31) for the gear set meshing type rotation intensity effective enhancement mechanism is internally provided with a hollow structure (32) for the gear set meshing type rotation intensity effective enhancement mechanism, the bottom center of the hollow shell (31) for the gear set meshing type rotation intensity effective enhancement mechanism is provided with a first rotating shaft (33) for the gear set meshing type rotation intensity effective enhancement mechanism through a bearing (34) for the gear set meshing type rotation intensity effective enhancement mechanism, the top center of the hollow shell (31) for the gear set meshing type rotation intensity effective enhancement mechanism is provided with a third rotating shaft (37) for the gear set meshing type rotation intensity effective enhancement mechanism through a bearing (34) for the gear set meshing type rotation intensity effective enhancement mechanism, and the side surface of the hollow shell (31) for the gear set meshing type rotation intensity effective enhancement mechanism is provided with a third rotating shaft (37) for the gear set meshing type rotation intensity effective enhancement mechanism through a bearing (34) for the gear set meshing type rotation intensity effective enhancement mechanism A second rotating shaft (35) for an effective reinforcing mechanism, a second gear (39) for a gear set meshing type rotation strength effective reinforcing mechanism and a third gear (310) for a gear set meshing type rotation strength effective reinforcing mechanism are mounted on the shaft body of the second rotating shaft (35) for the gear set meshing type rotation strength effective reinforcing mechanism, a first gear (38) for a gear set meshing type rotation strength effective reinforcing mechanism and a fourth gear (311) for a gear set meshing type rotation strength effective reinforcing mechanism are mounted on the top end of a first rotating shaft (33) for the gear set meshing type rotation strength effective reinforcing mechanism and the bottom end of a third rotating shaft (37) for the gear set meshing type rotation strength effective reinforcing mechanism respectively, and the first gear (38) for the gear set meshing type rotation strength effective reinforcing mechanism is meshed with the tooth structure between the second gear (39) for the gear set meshing type rotation strength effective reinforcing mechanism, the third gear (310) for the gear set meshing type rotation intensity effective enhancement mechanism is meshed with the tooth structure between the fourth gear (311) for the gear set meshing type rotation intensity effective enhancement mechanism.

3. The oil filler for soil incineration as set forth in claim 2, wherein: the structure radius of the reference circle of the first gear (38) for the gear set meshing type effective rotation strength enhancing mechanism is smaller than the structure radius of the reference circle of the second gear (39) for the gear set meshing type effective rotation strength enhancing mechanism, the structure radius of the reference circle of the second gear (39) for the gear set meshing type effective rotation strength enhancing mechanism is larger than the structure radius of the reference circle of the third gear (310) for the gear set meshing type effective rotation strength enhancing mechanism, and the structure radius of the reference circle of the fourth gear (311) for the gear set meshing type effective rotation strength enhancing mechanism is smaller than the structure radius of the reference circle of the third gear (310) for the gear set meshing type effective rotation strength enhancing mechanism.

4. The oil filler for soil incineration as set forth in claim 2, wherein: the end part of the first rotating shaft (33) for the gear set meshing type rotation intensity effective enhancement mechanism and the end part of the third rotating shaft (37) for the gear set meshing type rotation intensity effective enhancement mechanism are respectively and fixedly connected with the end parts of the main second rotating shaft (5) and the main first rotating shaft (4).

5. The oil filler for soil incineration according to claim 1, wherein: the hollow shaft body installation type oil injection mechanism (6) comprises a hollow rod body (61) for a hollow shaft body installation type oil injection mechanism, a central hole (62) for the hollow shaft body installation type oil injection mechanism, an injection pipeline (63) for the hollow shaft body installation type oil injection mechanism, an injection hole (64) for the hollow shaft body installation type oil injection mechanism, a discharge pipeline (65) for the hollow shaft body installation type oil injection mechanism, a discharge hole (66) for the hollow shaft body installation type oil injection mechanism and a mist-shaped injection head (67) for the hollow shaft body installation type oil injection mechanism; the center of the hollow rod body (61) for the hollow shaft body installation type oil injection mechanism is provided with a center hole (62) for the hollow shaft body installation type oil injection mechanism, the side of one end of the hollow rod body (61) for the hollow shaft body installation type oil injection mechanism is provided with an injection pipeline (63) for the hollow shaft body installation type oil injection mechanism with an integrated structure, the rod body of the other end of the hollow rod body (61) for the hollow shaft body installation type oil injection mechanism is provided with a plurality of discharge pipelines (65) for the hollow shaft body installation type oil injection mechanism with an integrated structure, and the interiors of the injection pipeline (63) for the hollow shaft body installation type oil injection mechanism and the discharge pipeline (65) for the hollow shaft body installation type oil injection mechanism are respectively provided with an injection hole (64) for the hollow shaft body installation type oil injection mechanism and a discharge hole (66) for the ) And a mist spray head (67) for the hollow shaft-mounted oil injection mechanism is mounted inside the discharge hole (66) for the hollow shaft-mounted oil injection mechanism.

6. The oil squirt for soil incineration of claim 5, wherein: and the hollow shaft body mounting type oil injection mechanism is fixedly connected with one end of a liquid hose (22) through an injection pipeline (63).

7. The oil squirt for soil incineration of claim 5, wherein: the hollow shaft body installation type oil injection mechanism is characterized in that a hollow rod body (61) between an injection pipeline (63) for the hollow shaft body installation type oil injection mechanism and a discharge pipeline (65) for the hollow shaft body installation type oil injection mechanism is arranged inside a fixed limiting type rotating mechanism (9) of the rotating shaft body.

8. The oil filler for soil incineration according to claim 1, wherein: the rotating shaft body fixed limiting type rotating mechanism (9) comprises a shaft sleeve (91) for the rotating shaft body fixed limiting type rotating mechanism, a mounting hole (92) for the rotating shaft body fixed limiting type rotating mechanism, a bearing (93) for the rotating shaft body fixed limiting type rotating mechanism, a connecting rod (94) for the rotating shaft body fixed limiting type rotating mechanism and a fixing plate (95) for the rotating shaft body fixed limiting type rotating mechanism; the center of fixed spacing formula for rotary shaft body axle sleeve (91) is provided with fixed spacing formula for rotary shaft body mounting hole (92) for rotary shaft body, the inside of the fixed spacing formula for rotary shaft body axle sleeve (91) is lieing in the both ends of the fixed spacing formula for rotary shaft body mounting hole (92) all install a fixed spacing formula for rotary shaft body bearing (93) for rotary shaft body, two opposite fixed spacing formula for rotary shaft body connecting rods (94) are installed in the outside of the fixed spacing formula for rotary shaft body axle sleeve (91) of rotary shaft body, two fixed plate (95) for fixed spacing formula for rotary shaft body of rotary shaft body is all installed to the tip of the fixed spacing formula for rotary shaft body connecting rods (94).

9. The oil squirt for soil incineration of claim 8, wherein: the inner ring of the bearing (93) for the fixed limiting type rotating mechanism of the rotating shaft body is provided with a rod body of a hollow rod body (61) for a hollow shaft body installation type oil injection spraying mechanism.

10. The oil squirt for soil incineration of claim 8, wherein: the fixed limiting type rotating mechanism for the rotating shaft body is installed in the inner wall of one end of the soil stirring and conveying space (8) through a fixed plate (95).

Images