CN111155620B - Self-adaptive sewage discharge device - Google Patents
Self-adaptive sewage discharge device Download PDFInfo
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- CN111155620B CN111155620B CN202010095290.8A CN202010095290A CN111155620B CN 111155620 B CN111155620 B CN 111155620B CN 202010095290 A CN202010095290 A CN 202010095290A CN 111155620 B CN111155620 B CN 111155620B
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- E—FIXED CONSTRUCTIONS
- E03—WATER SUPPLY; SEWERAGE
- E03F—SEWERS; CESSPOOLS
- E03F1/00—Methods, systems, or installations for draining-off sewage or storm water
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- E—FIXED CONSTRUCTIONS
- E03—WATER SUPPLY; SEWERAGE
- E03F—SEWERS; CESSPOOLS
- E03F3/00—Sewer pipe-line systems
- E03F3/02—Arrangement of sewer pipe-lines or pipe-line systems
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- E—FIXED CONSTRUCTIONS
- E03—WATER SUPPLY; SEWERAGE
- E03F—SEWERS; CESSPOOLS
- E03F3/00—Sewer pipe-line systems
- E03F3/04—Pipes or fittings specially adapted to sewers
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- Engineering & Computer Science (AREA)
- Hydrology & Water Resources (AREA)
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Abstract
The invention discloses a self-adaptive sewage discharge device which comprises a transverse hollow pipeline body and a longitudinal hollow pipeline body. The device can adaptively control the size of the space of the discharge part by utilizing the flow and the gravity of the sewage when the sewage is discharged, can reduce the communicated space to the minimum under the action of the gravity of the component when the sewage is not discharged, thereby effectively reducing the influence of the sewage and the air on the outside, does not need manual or electric power for driving, and has strong practicability.
Description
Technical Field
The invention relates to the technical field of sewage discharge, in particular to a self-adaptive sewage discharge device.
Background
At present, sewage discharge always exists, and current discharging equipment is that discharge position and sewage storage pond direct intercommunication all, so the air that leads to after the pollution directly communicates with the external world, leads to air pollution's emergence, and some is manual or electrodynamic type in addition, and the self-adaptation ability is poor.
Disclosure of Invention
The present invention is directed to a self-adaptive sewage draining device, which solves the above problems.
In order to achieve the purpose, the invention provides the following technical scheme: a self-adaptive sewage discharge device comprises a transverse hollow pipeline body and a longitudinal hollow pipeline body, wherein an inclined plane shell is arranged at the bottom of a connecting part of the transverse hollow pipeline body and the longitudinal hollow pipeline body, a transverse hollow pipeline hole and a longitudinal hollow pipeline hole are respectively arranged in the transverse hollow pipeline body and the longitudinal hollow pipeline body, the inclined plane shell is positioned in a slope structure, an inclined pipeline hole is arranged at the bottom of the slope structure by the inclined plane shell, a pipeline sleeved type sealed pipeline body installing mechanism is respectively installed at the end parts of the transverse hollow pipeline body and the longitudinal hollow pipeline body, an inclined plate type gravity deviation rotation driving mechanism is installed below the inclined pipeline hole by the longitudinal hollow pipeline hole, an internal bolt installation type inclined plate space size rotation limiting mechanism is installed at the top part of the transverse hollow pipeline hole, and a main through hole structure communicated with the outside and the transverse hollow pipeline hole is arranged at the top part of the transverse hollow pipeline body, the transverse hollow pipeline body is provided with a main vertical plate at one side of the main through hole structure, a main rotating shaft is arranged at the center of the main vertical plate through a main bearing, a belt pulley is arranged at one end of the main rotating shaft, a hoisting wheel is arranged at the other end of the main rotating shaft, a rope is wound inside the hoisting wheel, the bottom end of the rope penetrates through the main through hole structure, and the bottom end of the rope is connected with an inner bolt installation type inclined plate space rotation limiting mechanism through a movable hinge.
Further, the pipe muff-coupling type sealed pipeline body installation mechanism comprises a hollow sleeve for the pipe muff-coupling type sealed pipeline body installation mechanism, an annular groove structure for the pipe muff-coupling type sealed pipeline body installation mechanism, an air seal ring for the pipe muff-coupling type sealed pipeline body installation mechanism, a center hole for the pipe muff-coupling type sealed pipeline body installation mechanism, a first high-pressure seal ring installation groove structure for the pipe muff-coupling type sealed pipeline body installation mechanism, a second high-pressure seal ring installation groove structure for the pipe muff-coupling type sealed pipeline body installation mechanism, a first high-pressure seal ring for the pipe muff-coupling type sealed pipeline body installation mechanism, and a second high-pressure seal ring for the pipe muff-coupling type sealed pipeline body installation mechanism; the middle part of the side of the hollow sleeve for the pipe muff-coupling type sealing pipeline body installation mechanism is provided with an annular groove structure for the pipe muff-coupling type sealing pipeline body installation mechanism, the air seal ring for the pipe muff-coupling type sealing pipeline body installation mechanism is installed by the internally installed annular groove structure for the pipe muff-coupling type sealing pipeline body installation mechanism, the center of the hollow sleeve for the pipe muff-coupling type sealing pipeline body installation mechanism is provided with a center hole for the pipe muff-coupling type sealing pipeline body installation mechanism, the two ends of the center hole for the pipe muff-coupling type sealing pipeline body installation mechanism are respectively provided with a first high-pressure sealing ring installation groove structure for the pipe muff-coupling type sealing pipeline body installation mechanism and a second high-pressure sealing ring installation groove structure for the pipe muff-coupling type sealing pipeline body installation mechanism, the pipe muff-coupling type sealing pipeline body installation mechanism uses the first high-pressure sealing ring installation groove structure and the pipe muff-coupling type sealing pipeline body installation mechanism uses the second high-pressure sealing ring installation groove structure And a first high-pressure sealing ring for the pipeline sleeved type sealing pipeline body installation mechanism and a second high-pressure sealing ring for the pipeline sleeved type sealing pipeline body installation mechanism are respectively arranged in the groove structure.
Further, the inside of the centre bore for the pipe socket joint type sealing pipeline body installation mechanism is penetrated with the horizontal hollow pipeline body, just the outer side at the horizontal hollow pipeline body is installed to the inner ring of first high pressure seal ring for the pipe socket joint type sealing pipeline body installation mechanism and second high pressure seal ring for the pipe socket joint type sealing pipeline body installation mechanism.
Further, a longitudinal hollow pipeline body penetrates through the inside of the center hole for the pipeline sleeved type sealed pipeline body installation mechanism, and the inner ring of the first high-pressure sealing ring for the pipeline sleeved type sealed pipeline body installation mechanism and the inner ring of the second high-pressure sealing ring for the pipeline sleeved type sealed pipeline body installation mechanism are installed on the outer side of the longitudinal hollow pipeline body.
The inclined plate type gravity deviation rotation driving mechanism comprises an inclined plate for the inclined plate type gravity deviation rotation driving mechanism, a first vertical surface for the inclined plate type gravity deviation rotation driving mechanism, a second vertical surface for the inclined plate type gravity deviation rotation driving mechanism, a rotating shaft mounting hole for the inclined plate type gravity deviation rotation driving mechanism, a bearing for the inclined plate type gravity deviation rotation driving mechanism and a rotating shaft for the inclined plate type gravity deviation rotation driving mechanism; swash plate formula gravity skew swash plate for rotary drive mechanism is in opposite both sides, and wherein one side forms swash plate formula gravity skew rotary drive mechanism forms with first vertical plane, another side swash plate formula gravity skew rotary drive mechanism uses the second vertical plane, the inside of swash plate formula gravity skew rotary drive mechanism uses the swash plate formula gravity skew rotary drive mechanism and uses the rotation axis mounting hole, the bearing for the swash plate formula gravity skew rotary drive mechanism is installed at the both ends of the inside of swash plate formula gravity skew rotary drive mechanism for rotary drive mechanism rotation axis mounting hole, two a swash plate formula gravity skew rotary drive mechanism uses the rotation axis for the inner ring installation swash plate formula gravity skew rotary drive mechanism of bearing for the swash plate formula gravity skew rotary drive mechanism.
Further, the first vertical surface for the swash plate type gravity deviation rotation driving mechanism and the second vertical surface for the swash plate type gravity deviation rotation driving mechanism form an acute angle with the oblique symmetry surface of the swash plate for the swash plate type gravity deviation rotation driving mechanism, and the distance between the rotating shaft mounting hole for the swash plate type gravity deviation rotation driving mechanism and the first vertical surface for the swash plate type gravity deviation rotation driving mechanism is larger than the distance between the rotating shaft mounting hole for the swash plate type gravity deviation rotation driving mechanism and the second vertical surface for the swash plate type gravity deviation rotation driving mechanism.
Furthermore, one end of the rotating shaft for the inclined plate type gravity deviation rotation driving mechanism is installed inside the longitudinal hollow pipeline body through a bearing, the other end of the rotating shaft for the inclined plate type gravity deviation rotation driving mechanism penetrates through the side face of the longitudinal hollow pipeline body, a belt pulley is installed at the end of the rotating shaft, and the belt pulley is connected with the other belt pulley through a belt.
Further, the internal bolt installation type inclined plate space size rotation limiting mechanism comprises a connecting plate for the internal bolt installation type inclined plate space size rotation limiting mechanism, a bolt hole for the internal bolt installation type inclined plate space size rotation limiting mechanism, a strip-shaped convex structure for the internal bolt installation type inclined plate space size rotation limiting mechanism and a semicircular groove structure for the internal bolt installation type inclined plate space size rotation limiting mechanism, the sealing rubber pad for the internal bolt installation type inclined plate space size rotation limiting mechanism, the connecting rod structure for the internal bolt installation type inclined plate space size rotation limiting mechanism, the limiting rod for the internal bolt installation type inclined plate space size rotation limiting mechanism, the valve plate for the internal bolt installation type inclined plate space size rotation limiting mechanism and the semicircular bulge structure for the internal bolt installation type inclined plate space size rotation limiting mechanism are arranged on the inner bolt installation type inclined plate space size rotation limiting mechanism; the internal bolt installation type inclined plate space size rotation limiting mechanism is characterized in that a plurality of internal bolt installation type inclined plate space size rotation limiting mechanism bolt holes are formed in the connecting plate for the internal bolt installation type inclined plate space size rotation limiting mechanism, a strip-shaped protruding structure for the internal bolt installation type inclined plate space size rotation limiting mechanism is arranged at the center of the bottom of the connecting plate for the internal bolt installation type inclined plate space size rotation limiting mechanism, a semicircular groove structure for the internal bolt installation type inclined plate space size rotation limiting mechanism is arranged at the bottom of the strip-shaped protruding structure for the internal bolt installation type inclined plate space size rotation limiting mechanism, a sealing rubber pad for the internal bolt installation type inclined plate space size rotation limiting mechanism is arranged in the semicircular groove structure for the internal bolt installation type inclined plate space size rotation limiting mechanism, and an internal bolt installation type inclined plate space size rotation limiting mechanism of an integrated structure is arranged at the bottom of the strip-shaped protruding structure for the internal bolt installation type inclined plate space size rotation limiting mechanism The connecting rod structure for the plate space size rotation limiting mechanism, the valve plate top for the internal bolt installation type inclined plate space size rotation limiting mechanism is provided with an internal bolt installation type semicircular bulge structure for the inclined plate space size rotation limiting mechanism, the internal installation of the valve plate for the internal bolt installation type inclined plate space size rotation limiting mechanism is provided with an internal bolt installation type limiting rod for the inclined plate space size rotation limiting mechanism, the limiting rod for the internal bolt installation type inclined plate space size rotation limiting mechanism is in active connection with the valve plate for the internal bolt installation type inclined plate space size rotation limiting mechanism, the connecting rod structure for the internal bolt installation type inclined plate space size rotation limiting mechanism runs through the valve plate top for the internal bolt installation type inclined plate space size rotation limiting mechanism, and the connecting rod structure bottom for the internal bolt installation type inclined plate space size rotation limiting mechanism and the internal bolt installation type inclined plate space size rotation limiting mechanism is in rotation limiting mechanism The middle parts of the limiting rods are fixedly connected.
Furthermore, the valve plate for the internal bolt installation type inclined plate space size rotation limiting mechanism obliquely props against the surface of the inclined plane structure, and one end face of the valve plate for the internal bolt installation type inclined plate space size rotation limiting mechanism is fixedly connected with one end of a wire rope through a movable hinge.
Further, the connecting plate for the internal bolt-mounted swash plate space size rotation limiting mechanism is mounted on the top of the transverse hollow pipe hole by a bolt inserted into the bolt hole for the internal bolt-mounted swash plate space size rotation limiting mechanism.
Compared with the prior art, the invention has the beneficial effects that: the invention utilizes the flow and gravity of sewage when the sewage is discharged, can self-adaptively control the size of the space of a discharge part, can reduce the communication space to the minimum under the action of the gravity of a component when the sewage is not discharged, thereby effectively reducing the influence of sewage air on the outside, does not need manual or electric power for driving, has strong practicability, is provided with a pipeline sleeve type sealing pipeline body mounting mechanism, can be mounted at a specific part to realize sealing effect and prevent air from overflowing through the mounting part, and is provided with a swash plate type gravity deviation rotation driving mechanism which can generate rotation phenomenon under the action of gravity factor under the action of realizing certain preliminary air sealing, thereby realizing the driving effect of rotation force, and is provided with an internal bolt mounting type swash plate space size rotation limiting mechanism, can realize the sealed effect in space under the action of gravity of self, simultaneously under the effect of gravity, can freely rotate, realize opening the effect.
Drawings
FIG. 1 is a schematic diagram of a full-sectional structure of an adaptive sewage discharge device according to the present invention;
FIG. 2 is a schematic structural diagram of a pipe sleeved type sealing pipe installation mechanism in a self-adaptive sewage discharge device according to the present invention;
FIG. 3 is a schematic structural view of a swash plate type gravity-biased rotary driving mechanism in the adaptive sewage draining device according to the present invention;
FIG. 4 is a schematic structural view of a spatial rotation limiting mechanism of an internal bolt-mounted swash plate in a self-adaptive sewage discharge device according to the present invention;
in the figure: 1, a transverse hollow pipeline body, 2, a longitudinal hollow pipeline body, 3, an inclined plane shell, 4, a transverse hollow pipeline hole, 5, a longitudinal hollow pipeline hole, 6, an inclined plane structure, 7, an inclined pipeline hole, 8, a pipeline sleeved type sealed pipeline body installation mechanism, 81, a hollow sleeve for a pipeline sleeved type sealed pipeline body installation mechanism, 82, an annular groove structure for a pipeline sleeved type sealed pipeline body installation mechanism, 83, an air sealing ring for a pipeline sleeved type sealed pipeline body installation mechanism, 84, a central hole for a pipeline sleeved type sealed pipeline body installation mechanism, 85, a first high-pressure sealing ring installation groove structure for a pipeline sleeved type sealed pipeline body installation mechanism, 86, a second high-pressure sealing ring installation groove structure for a pipeline sleeved type sealed pipeline body installation mechanism, 87, a first high-pressure sealing ring for a pipeline sleeved type sealed pipeline body installation mechanism, 88, a second high-pressure seal ring for pipe sleeve type sealed pipe body installation mechanism, 9, a main through hole structure, 10, a main vertical plate, 11, a main rotating shaft, 12, a hoisting wheel, 13, a belt pulley, 15, a swash plate type gravity offset rotary drive mechanism, 151, a swash plate for a swash plate type gravity offset rotary drive mechanism, 152, a first vertical surface for a swash plate type gravity offset rotary drive mechanism, 153, a second vertical surface for a swash plate type gravity offset rotary drive mechanism, 154, a rotating shaft installation hole for a swash plate type gravity offset rotary drive mechanism, 155, a bearing for a swash plate type gravity offset rotary drive mechanism, 156, a rotating shaft for a swash plate type gravity offset rotary drive mechanism, 17, a movable hinge, 18, a string, 19, an internal bolt installation type swash plate space size rotation limiting mechanism, 191, a connecting plate for an internal bolt installation type swash plate space size rotation limiting mechanism, 192, internal bolt installation formula swash plate space size is bolt hole for rotation limiting mechanism, 193, internal bolt installation formula swash plate space size is strip-shaped protruding structure for rotation limiting mechanism, 194, internal bolt installation formula swash plate space size is semi-circular groove structure for rotation limiting mechanism, 195, internal bolt installation formula swash plate space size is sealed rubber pad for rotation limiting mechanism, 196, internal bolt installation formula swash plate space size is connecting rod structure for rotation limiting mechanism, 197, internal bolt installation formula swash plate space size is gag lever post for rotation limiting mechanism, 198, internal bolt installation formula swash plate space size is valve plate for rotation limiting mechanism, 199, internal bolt installation formula swash plate space size is semi-circular protruding structure for rotation limiting 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: comprises a transverse hollow pipeline body 1 and a longitudinal hollow pipeline body 2, the transverse hollow pipeline body 1 and the longitudinal hollow pipeline body 2 are provided with an inclined plane shell 3 at the bottom of a connecting part, the inside of the transverse hollow pipeline body 1 and the longitudinal hollow pipeline body 2 is respectively provided with a transverse hollow pipeline hole 4 and a longitudinal hollow pipeline hole 5, the inclined plane shell 3 is positioned and provided with an inclined plane structure 6, the inclined plane shell 3 is provided with an inclined pipeline hole 7 at the bottom of the inclined plane structure 6, the end parts of the transverse hollow pipeline body 1 and the longitudinal hollow pipeline body 2 are respectively provided with a pipeline sleeved type sealed pipeline body installation mechanism 8, the longitudinal hollow pipeline hole 5 is positioned below the inclined plane structure hole 7 and is provided with an inclined plate type gravity deviation rotation driving mechanism 15, the top part of the transverse hollow pipeline hole 4 is provided with an internal bolt installation type inclined plate space size rotation limiting mechanism 19, the top of the transverse hollow pipeline body 1 is provided with a main through hole structure 9 communicating the outside and the transverse hollow pipeline hole 4, a main vertical plate 10 is arranged on one side of the main through hole structure 9 of the transverse hollow pipeline body 1, a main rotating shaft 11 is arranged in the center of the main vertical plate 10 through a main bearing, a belt pulley 13 is arranged at one end of the main rotating shaft 11, a hoisting wheel 12 is arranged at the other end of the main rotating shaft 11, a rope 18 is arranged in the hoisting wheel 12 in a winding manner, the bottom end of the rope 18 penetrates through the main through hole structure 9, and the bottom end is connected with an internal bolt installation type inclined plate space size rotation limiting mechanism 19 through a movable hinge 17.
Referring to fig. 2, the pipe-socketed sealed pipe body installation mechanism 8 includes a hollow sleeve 81 for a pipe-socketed sealed pipe body installation mechanism, an annular groove structure 82 for a pipe-socketed sealed pipe body installation mechanism, an air seal ring 83 for a pipe-socketed sealed pipe body installation mechanism, a center hole 84 for a pipe-socketed sealed pipe body installation mechanism, a first high-pressure seal ring installation groove structure 85 for a pipe-socketed sealed pipe body installation mechanism, a second high-pressure seal ring installation groove structure 86 for a pipe-socketed sealed pipe body installation mechanism, a first high-pressure seal ring 87 for a pipe-socketed sealed pipe body installation mechanism, and a second high-pressure seal ring 88 for a pipe-socketed sealed pipe body installation mechanism; the middle part of pipe cup joint formula sealed pipeline body installation mechanism side with hollow cover 81 is provided with pipe cup joint formula sealed pipeline body installation mechanism and uses annular groove structure 82, pipe cup joint formula sealed pipeline body installation mechanism is with an internally mounted air seal 83 for pipe cup joint formula sealed pipeline body installation mechanism of annular groove structure 82, pipe cup joint formula sealed pipeline body installation mechanism is provided with pipe cup joint formula sealed pipeline body installation mechanism with the inside center of hollow cover 81 and uses centre bore 84, pipe cup joint formula sealed pipeline body installation mechanism is provided with first high-pressure seal circle installation groove structure 85 for the sealed pipeline body installation mechanism of pipe cup joint formula and pipe cup joint formula sealed pipeline body installation mechanism and uses second high-pressure seal circle installation groove structure 86 respectively with the both ends of centre bore 84, pipe cup joint formula sealed pipeline body installation mechanism is with first high-pressure seal circle installation groove structure 85 and pipe cup joint formula sealed pipeline body installation mechanism for the installation mechanism of pipe cup joint formula sealed pipeline body A first high-pressure sealing ring 87 for a pipeline socket type sealing pipeline body installation mechanism and a second high-pressure sealing ring 88 for a pipeline socket type sealing pipeline body installation mechanism are respectively installed inside the second high-pressure sealing ring installation groove structure 86; a transverse hollow pipeline body 1 penetrates through the inside of the central hole 84 for the pipeline sleeved type sealed pipeline body installation mechanism, and the inner ring of the first high-pressure sealing ring 87 for the pipeline sleeved type sealed pipeline body installation mechanism and the inner ring of the second high-pressure sealing ring 88 for the pipeline sleeved type sealed pipeline body installation mechanism are installed on the outer side of the transverse hollow pipeline body 1; the inside of the center hole 84 for the pipe socket type sealing pipeline body installation mechanism is penetrated with the longitudinal hollow pipeline body 2, and the inner ring of the first high-pressure sealing ring 87 for the pipe socket type sealing pipeline body installation mechanism and the second high-pressure sealing ring 88 for the pipe socket type sealing pipeline body installation mechanism is installed at the outer side of the longitudinal hollow pipeline body 2, and the main functions are as follows: when the air conditioner is installed, sealed installation can be realized, and air pollution is prevented.
Referring to fig. 3, the swash plate type gravity offset rotary drive mechanism 15 includes a swash plate 151 for a swash plate type gravity offset rotary drive mechanism, a first vertical surface 152 for a swash plate type gravity offset rotary drive mechanism, a second vertical surface 153 for a swash plate type gravity offset rotary drive mechanism, a rotary shaft mounting hole 154 for a swash plate type gravity offset rotary drive mechanism, a bearing 155 for a swash plate type gravity offset rotary drive mechanism, and a rotary shaft 156 for a swash plate type gravity offset rotary drive mechanism; the swash plate 151 for the swash plate type gravity-offset rotary drive mechanism is provided with a first vertical surface 152 for the swash plate type gravity-offset rotary drive mechanism formed on one side and a second vertical surface 153 for the swash plate type gravity-offset rotary drive mechanism formed on the other side, a rotary shaft mounting hole 154 for the swash plate type gravity-offset rotary drive mechanism is provided in the swash plate 151 for the swash plate type gravity-offset rotary drive mechanism, bearings 155 for the swash plate type gravity-offset rotary drive mechanism are mounted at both ends of the inside of the rotary shaft mounting hole 154 for the swash plate type gravity-offset rotary drive mechanism, and a rotary shaft 156 for the swash plate type gravity-offset rotary drive mechanism is mounted on the inner ring of the bearings 155 for the swash plate type gravity-offset rotary drive mechanism; the first vertical surface 152 and the second vertical surface 153 for the swash plate type gravity deviation rotation driving mechanism and the oblique symmetric surface 151 for the swash plate type gravity deviation rotation driving mechanism form an acute angle, and the distance between the rotating shaft mounting hole 154 for the swash plate type gravity deviation rotation driving mechanism and the first vertical surface 152 for the swash plate type gravity deviation rotation driving mechanism is larger than the distance between the rotating shaft mounting hole 154 for the swash plate type gravity deviation rotation driving mechanism and the second vertical surface 153 for the swash plate type gravity deviation rotation driving mechanism; one end of the rotating shaft 156 for the swash plate type gravity deviation rotation driving mechanism is mounted inside the longitudinal hollow pipeline body 2 through a bearing, the other end of the rotating shaft 156 for the swash plate type gravity deviation rotation driving mechanism penetrates through the side surface of the longitudinal hollow pipeline body 2, the end part of the rotating shaft is mounted with a belt pulley 13, the belt pulley 13 is connected with another belt pulley through a belt, and the main functions of the rotating shaft are as follows: since the first vertical surface 152 for the swash plate type gravity offset rotary drive mechanism and the second vertical surface 153 for the swash plate type gravity offset rotary drive mechanism and the inclined symmetrical surface of the swash plate 151 for the swash plate type gravity offset rotary drive mechanism are formed at acute angles and the distance between the rotary shaft mounting hole 154 for the swash plate type gravity offset rotary drive mechanism and the first vertical surface 152 for the swash plate type gravity offset rotary drive mechanism is larger than the distance between the rotary shaft mounting hole 154 for the swash plate type gravity offset rotary drive mechanism and the second vertical surface 153 for the swash plate type gravity offset rotary drive mechanism, the device is rotated when being affected by external force, and since the other end of the rotary shaft 156 for the swash plate type gravity offset rotary drive mechanism penetrates the side surface of the longitudinal hollow pipe body 2 and a pulley 13 is mounted at the end, the pulley 13 is connected to another pulley by a belt, so that the rotation of the winch can drive the winch wheel 12 to rotate, thereby generating linkage.
Referring to fig. 4, the internal bolt-mounted swash plate space size rotation limiting mechanism 19 includes a connecting plate 191 for an internal bolt-mounted swash plate space size rotation limiting mechanism, a bolt hole 192 for an internal bolt-mounted swash plate space size rotation limiting mechanism, a bar-shaped protrusion structure 193 for an internal bolt-mounted swash plate space size rotation limiting mechanism, a semicircular groove structure 194 for an internal bolt-mounted swash plate space size rotation limiting mechanism, the sealing rubber pad 195 for the internal bolt installation type inclined plate space size rotation limiting mechanism, the connecting rod structure 196 for the internal bolt installation type inclined plate space size rotation limiting mechanism, the limiting rod 197 for the internal bolt installation type inclined plate space size rotation limiting mechanism, the valve plate 198 for the internal bolt installation type inclined plate space size rotation limiting mechanism and the semicircular bulge structure 199 for the internal bolt installation type inclined plate space size rotation limiting mechanism; the internal bolt installation type swash plate space size rotation limiting mechanism is characterized in that a plurality of internal bolt installation type swash plate space size rotation limiting mechanism bolt holes 192 are arranged inside the internal bolt installation type swash plate space size rotation limiting mechanism connecting plate 191, an internal bolt installation type swash plate space size rotation limiting mechanism strip-shaped bulge structure 193 is arranged at the center of the bottom of the internal bolt installation type swash plate space size rotation limiting mechanism connecting plate 191, an internal bolt installation type swash plate space size rotation limiting mechanism strip-shaped bulge structure 194 is arranged at the bottom of the internal bolt installation type swash plate space size rotation limiting mechanism strip-shaped bulge structure 193, an internal bolt installation type swash plate space size rotation limiting mechanism sealing rubber pad 195 is arranged inside the internal bolt installation type swash plate space size rotation limiting mechanism semi-shaped bulge structure 194, and an integrated structure is arranged at the bottom of the internal bolt installation type swash plate space size rotation limiting mechanism strip-shaped bulge structure 193 The internal bolt-mounted type connecting rod structure 196 for the swash plate space size rotation limiting mechanism, wherein the top of the valve plate 198 for the internal bolt-mounted type swash plate space size rotation limiting mechanism is provided with a semicircular convex structure 199 for the internal bolt-mounted type swash plate space size rotation limiting mechanism, the inside of the valve plate 198 for the internal bolt-mounted type swash plate space size rotation limiting mechanism is provided with a limiting rod 197 for the internal bolt-mounted type swash plate space size rotation limiting mechanism, the limiting rod 197 for the internal bolt-mounted type swash plate space size rotation limiting mechanism and the valve plate 198 for the internal bolt-mounted type swash plate space size rotation limiting mechanism are in active connection, the connecting rod structure 196 for the internal bolt-mounted type swash plate space size rotation limiting mechanism penetrates through the top of the valve plate 198 for the internal bolt-mounted type swash plate space size rotation limiting mechanism, the bottom end of a connecting rod structure 196 for the internal bolt installation type inclined plate space size rotation limiting mechanism is fixedly connected with the middle part of a limiting rod 197 for the internal bolt installation type inclined plate space size rotation limiting mechanism; the valve plate 198 for the internal bolt installation type inclined plate space size rotation limiting mechanism obliquely props against the surface of the inclined plane structure 6, and one end face of the valve plate 198 for the internal bolt installation type inclined plate space size rotation limiting mechanism is fixedly connected with one end of a wire rope 18 through a movable hinge 17; the connecting plate 191 for the internal bolt installation type inclined plate space size rotation limiting mechanism is installed at the top of the transverse hollow pipeline hole 4 through a bolt inserted into the bolt hole 192 for the internal bolt installation type inclined plate space size rotation limiting mechanism, and the connecting plate has the main functions of: when cotton rope 18 removed, can drive inside bolt-mounting formula swash plate space size rotation to prescribe a limit to mechanism with valve plate 198 rotatory, and because the factor of inside bolt-mounting formula swash plate space size rotation prescribe a limit to mechanism with valve plate 198 self gravity can drive cotton rope 18 again and remove, must notice: since the weight of the valve plate 198 for the internal bolt mounted swash plate space size rotation restricting mechanism is larger than the weight of the swash plate 151 for the swash plate type gravity displacement rotation driving mechanism, the swash plate 151 for the swash plate type gravity displacement rotation driving mechanism can be closed by the gravity when no sewage enters.
The specific use mode is as follows: during the operation of the invention, the pipe sleeve type sealed pipeline body installation mechanism 8 in the transverse hollow pipeline body 1 is installed in the drain hole of the sewage and sewage disposal pool, the pipe sleeve type sealed pipeline body installation mechanism 8 in the longitudinal hollow pipeline body 2 is installed in the liquid inlet hole of the storage pool for storing sewage, when sewage enters, the sewage is supposed to enter through the inclined through hole 7, the entered sewage is located on the surface of the inclined plate type gravity deviation rotation driving mechanism 15, the inclined plate type gravity deviation rotation driving mechanism 15 can rotate due to the gravity of the sewage, the rope 18 is driven to move upwards through the belt pulley 13 during rotation, the rope 18 drives one end of the inner bolt installation type inclined plate space size rotation limiting mechanism 19 to rotate upwards, at the moment, the inner space is opened, more sewage can be discharged in time, and after the sewage is discharged, the inner bolt installation type inclined plate space size rotation limiting mechanism 19 and the inclined plate type gravity deviation rotation driving mechanism 15 rotate upwards Under the gravity of the body, each part resets, closes the inner space.
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 (7)
1. The utility model provides a self-adaptation formula sewage discharge device, includes horizontal hollow pipeline body (1) and vertical hollow pipeline body (2), its characterized in that: the horizontal hollow pipeline body (1) and the vertical hollow pipeline body (2) are provided with an inclined plane shell (3) at the bottom of a connecting part, the insides of the horizontal hollow pipeline body (1) and the vertical hollow pipeline body (2) are respectively provided with a horizontal hollow pipeline hole (4) and a vertical hollow pipeline hole (5), the inclined plane shell (3) is positioned on an inclined plane structure (6), the inclined plane shell (3) is provided with an inclined pipeline hole (7) at the bottom of the inclined plane structure (6), the ends of the horizontal hollow pipeline body (1) and the vertical hollow pipeline body (2) are respectively provided with a pipeline sleeved type sealed pipeline body installation mechanism (8), the vertical hollow pipeline hole (5) is positioned below the inclined pipeline hole (7) and is provided with an inclined plate type gravity deviation rotary driving mechanism (15), the top of the horizontal hollow pipeline hole (4) is provided with an internal bolt installation type inclined plate space size rotary limiting mechanism (19), the pipeline sleeving type sealing pipeline comprises a transverse hollow pipeline body (1), wherein the top of the transverse hollow pipeline body (1) is provided with a main through hole structure (9) communicated with the outside and a transverse hollow pipeline hole (4), the transverse hollow pipeline body (1) is provided with a main vertical plate (10) at one side of the main through hole structure (9), the center of the main vertical plate (10) is provided with a main rotating shaft (11) through a main bearing, one end of the main rotating shaft (11) is provided with a belt pulley (13), the other end of the main rotating shaft (11) is provided with a hoisting wheel (12), the hoisting wheel (12) is internally provided with a rope (18) in a winding manner, the bottom end of the rope (18) penetrates through the main through hole structure (9) and is connected with an internal bolt installation type inclined plate space rotation limiting mechanism (19) through a movable hinge (17), and a pipeline sleeving type sealing pipeline body installation mechanism (8) comprises a hollow sleeve (81) for a pipeline sleeving type sealing pipeline installation mechanism, An annular groove structure (82) for a pipeline sleeved type sealed pipeline body installation mechanism, an air sealing ring (83) for the pipeline sleeved type sealed pipeline body installation mechanism, a central hole (84) for the pipeline sleeved type sealed pipeline body installation mechanism, a first high-pressure sealing ring installation groove structure (85) for the pipeline sleeved type sealed pipeline body installation mechanism, a second high-pressure sealing ring installation groove structure (86) for the pipeline sleeved type sealed pipeline body installation mechanism, a first high-pressure sealing ring (87) for the pipeline sleeved type sealed pipeline body installation mechanism and a second high-pressure sealing ring (88) for the pipeline sleeved type sealed pipeline body installation mechanism; the middle part of the side surface of the hollow sleeve (81) for the pipeline sleeved type sealing pipeline body installation mechanism is provided with an annular groove structure (82) for the pipeline sleeved type sealing pipeline body installation mechanism, the inside of the annular groove structure (82) for the pipeline sleeved type sealing pipeline body installation mechanism is provided with an air sealing ring (83) for the pipeline sleeved type sealing pipeline body installation mechanism, the center of the inside of the hollow sleeve (81) for the pipeline sleeved type sealing pipeline body installation mechanism is provided with a center hole (84) for the pipeline sleeved type sealing pipeline body installation mechanism, the two ends of the center hole (84) for the pipeline sleeved type sealing pipeline body installation mechanism are respectively provided with a first high-pressure sealing ring installation groove structure (85) for the pipeline sleeved type sealing pipeline body installation mechanism and a second high-pressure sealing ring installation groove structure (86) for the pipeline sleeved type sealing pipeline body installation mechanism, a first high-pressure sealing ring (87) for the pipeline sleeved type sealing pipeline body installation mechanism and a second high-pressure sealing ring (88) for the pipeline sleeved type sealing pipeline body installation mechanism are respectively installed inside the first high-pressure sealing ring installation groove structure (85) for the pipeline sleeved type sealing pipeline body installation mechanism and the second high-pressure sealing ring installation groove structure (86) for the pipeline sleeved type sealing pipeline body installation mechanism, the inclined plate type gravity deviation rotation driving mechanism (15) comprises an inclined plate (151) for the inclined plate type gravity deviation rotation driving mechanism, a first vertical surface (152) for the inclined plate type gravity deviation rotation driving mechanism, a second vertical surface (153) for the inclined plate type gravity deviation rotation driving mechanism, a rotating shaft mounting hole (154) for the inclined plate type gravity deviation rotation driving mechanism, a bearing (155) for the inclined plate type gravity deviation rotation driving mechanism and a rotating shaft (156) for the inclined plate type gravity deviation rotation driving mechanism; swash plate (151) for swash plate type gravity deviation rotary driving mechanism is in opposite both sides, and wherein one side forms swash plate type gravity deviation rotary driving mechanism is with first vertical plane (152), another side formation swash plate type gravity deviation rotary driving mechanism is with second vertical plane (153), the inside of swash plate type gravity deviation rotary driving mechanism is with swash plate (151) is provided with swash plate type gravity deviation rotary driving mechanism and uses rotation axis mounting hole (154), bearing (155) for swash plate type gravity deviation rotary driving mechanism are installed at the both ends of the inside of rotation axis mounting hole (154) for swash plate type gravity deviation rotary driving mechanism, two a rotation axis (156) for swash plate type gravity deviation rotary driving mechanism is installed to the inner ring of bearing (155) for swash plate type gravity deviation rotary driving mechanism, interior bolt installation formula swash plate space size rotation is injectd mechanism (19) and is injectd mechanism including interior bolt installation formula swash plate space size rotation and is used for mechanism The structure comprises a connecting plate (191), a bolt hole (192) for an internal bolt mounting type inclined plate space size rotation limiting mechanism, a strip-shaped convex structure (193) for the internal bolt mounting type inclined plate space size rotation limiting mechanism, a semicircular groove structure (194) for the internal bolt mounting type inclined plate space size rotation limiting mechanism, a sealing rubber pad (195) for the internal bolt mounting type inclined plate space size rotation limiting mechanism, a connecting rod structure (196) for the internal bolt mounting type inclined plate space size rotation limiting mechanism, a limiting rod (197) for the internal bolt mounting type inclined plate space size rotation limiting mechanism, a valve plate (198) for the internal bolt mounting type inclined plate space size rotation limiting mechanism and a semicircular convex structure (199) for the internal bolt mounting type inclined plate space size rotation limiting mechanism; a plurality of bolt holes (192) for the internal bolt installation type swash plate space size rotation limiting mechanism are arranged inside the connecting plate (191) for the internal bolt installation type swash plate space size rotation limiting mechanism, a strip-shaped convex structure (193) for the internal bolt installation type swash plate space size rotation limiting mechanism is arranged at the center of the bottom of the connecting plate (191) for the internal bolt installation type swash plate space size rotation limiting mechanism, a semicircular groove structure (194) for the internal bolt installation type swash plate space size rotation limiting mechanism is arranged at the bottom of the strip-shaped convex structure (193) for the internal bolt installation type swash plate space size rotation limiting mechanism, a sealing rubber pad (195) for the internal bolt installation type swash plate space size rotation limiting mechanism is arranged inside the semicircular groove structure (194) for the internal bolt installation type swash plate space size rotation limiting mechanism, the bottom of the strip-shaped protruding structure (193) for the internal bolt-mounted type inclined plate space size rotation limiting mechanism is provided with a connecting rod structure (196) for the internal bolt-mounted type inclined plate space size rotation limiting mechanism, which is of an integrated structure with the strip-shaped protruding structure, the top of the valve plate (198) for the internal bolt-mounted type inclined plate space size rotation limiting mechanism is provided with a semicircular protruding structure (199) for the internal bolt-mounted type inclined plate space size rotation limiting mechanism, the inside of the valve plate (198) for the internal bolt-mounted type inclined plate space size rotation limiting mechanism is provided with a limiting rod (197) for the internal bolt-mounted type inclined plate space size rotation limiting mechanism, and the limiting rod (197) for the internal bolt-mounted type inclined plate space size rotation limiting mechanism is in active connection with the valve plate (198) for the internal bolt-mounted type inclined plate space size rotation limiting mechanism, the connecting rod structure (196) for the internal bolt installation type inclined plate space size rotation limiting mechanism penetrates through the top of the valve plate (198) for the internal bolt installation type inclined plate space size rotation limiting mechanism, and the bottom end of the connecting rod structure (196) for the internal bolt installation type inclined plate space size rotation limiting mechanism is fixedly connected with the middle of the limiting rod (197) for the internal bolt installation type inclined plate space size rotation limiting mechanism.
2. The adaptive sewage discharge apparatus according to claim 1, wherein: the inside of pipeline cup joint formula sealed pipeline body installation mechanism centre bore (84) runs through and has horizontal cavity pipeline body (1), just pipeline cup joint formula sealed pipeline body installation mechanism is installed in the outside of horizontal cavity pipeline body (1) with the inner ring of first high pressure seal circle (87) and pipeline cup joint formula sealed pipeline body installation mechanism second high pressure seal circle (88).
3. The adaptive sewage discharge apparatus according to claim 1, wherein: the pipeline cup joints the inside of the sealed pipeline body installation mechanism of formula with centre bore (84) and runs through and has vertical hollow pipeline body (2), just pipeline cup joints the sealed pipeline body installation mechanism of formula and installs the outside at vertical hollow pipeline body (2) with the inner ring of first high-pressure seal circle (87) and pipeline cup joints the sealed pipeline body installation mechanism of formula with second high-pressure seal circle (88).
4. The adaptive sewage discharge apparatus according to claim 1, wherein: the distance between the first vertical face (152) for the inclined plate type gravity deviation rotary driving mechanism and the second vertical face (153) for the inclined plate type gravity deviation rotary driving mechanism and the inclined symmetrical face of the inclined plate (151) for the inclined plate type gravity deviation rotary driving mechanism is an acute angle, and the distance between the rotating shaft mounting hole (154) for the inclined plate type gravity deviation rotary driving mechanism and the first vertical face (152) for the inclined plate type gravity deviation rotary driving mechanism is larger than the distance between the rotating shaft mounting hole (154) for the inclined plate type gravity deviation rotary driving mechanism and the second vertical face (153) for the inclined plate type gravity deviation rotary driving mechanism.
5. The adaptive sewage discharge apparatus according to claim 1, wherein: one end of the rotating shaft (156) for the inclined plate type gravity deviation rotation driving mechanism is installed inside the longitudinal hollow pipeline body (2) through a bearing, the other end of the rotating shaft (156) for the inclined plate type gravity deviation rotation driving mechanism penetrates through the side face of the longitudinal hollow pipeline body (2), a belt pulley (13) is installed at the end of the rotating shaft, and the belt pulley (13) is connected with the other belt pulley through a belt.
6. The adaptive sewage discharge apparatus according to claim 1, wherein: the valve plate (198) for the internal bolt installation type inclined plate space size rotation limiting mechanism is obliquely abutted against the surface of the inclined surface structure (6), and one end face of the valve plate (198) for the internal bolt installation type inclined plate space size rotation limiting mechanism is fixedly connected with one end of a wire rope (18) through a movable hinge (17).
7. The adaptive sewage discharge apparatus according to claim 1, wherein: the connecting plate (191) for the internal bolt installation type inclined plate space size rotation limiting mechanism is installed at the top of the transverse hollow pipeline hole (4) through a bolt inserted into the bolt hole (192) for the internal bolt installation type inclined plate space size rotation limiting mechanism.
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