CN111551684A - Waste water discharge detects guiding device - Google Patents

Abstract

The invention discloses a waste water discharge detection flow guide device, which comprises a waste water discharge shell, wherein a working cavity is arranged in the waste water discharge shell, a waste water connecting pipe connected between the outside and the working cavity is fixedly arranged on the inner wall of the left side of the working cavity, a flow guide assembly is arranged in the working cavity, the flow guide assembly comprises a fixed support fixedly arranged on the inner wall of the rear side of the working cavity, a flow guide shell fixedly arranged at the front end of the fixed support and a flow guide cavity arranged in the flow guide shell, the invention adopts an impeller positioned in the detection cavity, and the matching state of a second bevel gear, a third bevel gear and a first bevel gear can be controlled in the modes of gear transmission, belt transmission and the like according to the resistance of waste water on the impeller, so that the orientation of a flow guide hole is finally realized, the aim of guiding the waste water is fulfilled, the whole process can, and can not cause potential safety hazard to workers.

Description

Waste water discharge detects guiding device

Technical Field

The invention relates to the technical field of wastewater discharge, in particular to a wastewater discharge detection flow guide device.

Background

When different batches of wastewater are treated in a wastewater treatment plant, detection and classification treatment are often required according to the characteristics of the wastewater, such as pollution degree, viscosity and the like. However, the general wastewater detection is manual detection, which not only needs a lot of manpower, but also cannot ensure the detection speed, and certain potential safety hazards exist in the manual detection.

Disclosure of Invention

The invention aims to provide a waste water discharge detection flow guide device which is used for overcoming the defects in the prior art.

The waste water discharge detection diversion device comprises a waste water discharge shell, wherein a working cavity is arranged in the waste water discharge shell, a waste water connecting pipe connected between the outside and the working cavity is fixedly arranged on the inner wall of the left side of the working cavity, a diversion assembly is arranged in the working cavity, the diversion assembly comprises a fixed support fixedly arranged on the inner wall of the rear side of the working cavity, a diversion shell fixedly arranged at the front end of the fixed support, a diversion cavity arranged in the diversion shell, a first transmission shaft rotatably connected to the inner wall of the upper side of the diversion cavity and extending upwards into the working cavity, a control rotating block arranged in the diversion cavity and fixedly connected with the first transmission shaft, a diversion hole arranged at the right end of the control rotating block, a water inlet pipe concentrically and rotatably connected to the inner wall of the lower side of the diversion cavity and extending downwards into the working cavity, and a water outlet pipe, Connect in the inlet tube with connecting tube between the waste water connecting pipe, working chamber upside inner wall has set firmly the motor, motor lower extreme power connection has the second transmission shaft, be equipped with detection control assembly in the working chamber, detection control assembly including rotate connect in detect chamber upside inner wall and upwards extend and with the third transmission shaft of second transmission shaft lower extreme friction connection, locate detect the intracavity and with third transmission shaft lower extreme fixed connection's impeller.

Wherein the diversion assembly further comprises a sector gear which is arranged in the working cavity and fixedly connected with the upper end of the first transmission shaft, the radian of the tooth surface of the sector gear is one hundred eighty degrees, the upper end of the diversion shell is bilaterally and symmetrically connected with two fourth transmission shafts relative to the first transmission shaft, the fourth transmission shafts are fixedly provided with the first gears which can be meshed and connected with the sector gear, a main outlet pipeline is connected between the left end of the diversion cavity and external high-pollution-degree sewage treatment equipment, an auxiliary outlet pipeline is connected between the right end of the diversion cavity and external low-pollution-degree sewage treatment equipment, the upper end of the waste water connecting pipe is slidably connected with a sliding support, the sliding support is rotatably connected with a fifth transmission shaft which extends leftwards and rightwards, and the fifth transmission shaft on the right side of the sliding support is fixedly provided with a second bevel gear which can be meshed and connected with the first bevel gear on, and a third bevel gear which is positioned on the right side of the second bevel gear and can be in meshed connection with the first bevel gear on the right side is fixedly arranged on the fifth transmission shaft.

Wherein, the detection control assembly further comprises a fourth bevel gear which is arranged in the working cavity and is fixedly connected with the third transmission shaft, the inner wall of the rear side of the working cavity is rotatably connected with a sixth transmission shaft, the sixth transmission shaft is fixedly provided with a fifth bevel gear which is engaged and connected with the fourth bevel gear, the sixth transmission shaft is fixedly provided with a main belt wheel which is positioned at the rear side of the fifth bevel gear, the inner wall of the rear side of the working cavity is rotatably connected with a seventh transmission shaft which is positioned at the left side of the sliding support, the seventh transmission shaft is fixedly provided with a square rotating block, the square rotating block is provided with four mutually communicated slideways corresponding to the seventh transmission shaft in an annular array manner, the slideways are slidably connected with sliding blocks, the slideways are fixedly provided with spring supports which are positioned at the sliding blocks and close to the seventh transmission shaft, and first springs are connected between the spring supports and, the seventh transmission shaft is fixedly provided with an auxiliary belt wheel positioned at the rear side of the square rotating block, a belt is connected between the auxiliary belt wheel and the main belt wheel, the inner wall of the upper side of the detection cavity is provided with a chute communicated with the working cavity, the chute is connected with a baffle plate which extends outwards into the working cavity in a sliding way, the right end of the baffle plate positioned in the working cavity is fixedly provided with a horizontal support, a second spring is connected between the horizontal support and the wastewater connecting pipe, the inner wall of the front side of the working cavity is rotatably connected with an eighth transmission shaft positioned at the right side of the sixth transmission shaft, the eighth transmission shaft is fixedly provided with a friction wheel in friction connection with the left end of the baffle plate, the eighth transmission shaft is fixedly provided with a sixth bevel gear positioned at the front side of the friction wheel, the second transmission shaft is fixedly provided with a seventh bevel gear, and the second transmission shaft is fixedly provided with a second gear positioned at the, the inner wall of the upper side of the working cavity is fixedly provided with a vertical support positioned on the right side of the second transmission shaft, a third spring is connected between the vertical support and the sliding support, the lower end of the vertical support is rotatably connected with a ninth transmission shaft extending downwards, an eighth bevel gear meshed with the sixth bevel gear is fixedly arranged on the ninth transmission shaft, a third gear positioned on the upper side of the eighth bevel gear and meshed with the second gear is fixedly arranged on the ninth transmission shaft, a tenth transmission shaft extending leftwards and rightwards and connected with a left end spline of the fifth transmission shaft is rotatably connected on the vertical support, and a ninth bevel gear meshed with the seventh bevel gear is fixedly arranged on the tenth transmission shaft positioned on the left side of the vertical support.

The invention has the beneficial effects that: according to the invention, the impeller positioned in the detection cavity is adopted, and the matching state of the second bevel gear, the third bevel gear and the first bevel gear can be controlled in a gear transmission mode, a belt transmission mode and the like according to the resistance of the wastewater to the impeller, so that the orientation of the diversion hole is finally realized, the purpose of diversion of the wastewater is achieved, the whole process can be finished in the device, the operation is simple and rapid, and potential safety hazards to workers can not be caused.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic view of the whole structure of a waste water discharge detecting guide device of the present invention;

FIG. 2 is a schematic enlarged view of the structure of "A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 4, a wastewater discharge detection diversion device according to an embodiment of the present invention includes a wastewater discharge housing 11, a working chamber 12 is disposed in the wastewater discharge housing 11, a wastewater connection pipe 13 connected between the outside and the working chamber 12 is fixedly disposed on an inner wall of a left side of the working chamber 12, a diversion assembly 901 is disposed in the working chamber 12, the diversion assembly 901 includes a fixed bracket 64 fixedly disposed on an inner wall of a forehead of a rear side of the working chamber 12, a diversion housing 20 fixedly disposed at a front end of the fixed bracket 64, a diversion chamber 21 disposed in the diversion housing 20, a first transmission shaft 24 rotatably connected to an inner wall of an upper side of the diversion chamber 21 and extending upward into the working chamber 12, a control rotation block 18 disposed in the diversion chamber 21 and fixedly connected to the first transmission shaft 24, a diversion hole 23 disposed at a right end of the control rotation block 18, and the first transmission shaft 24 concentrically rotatably connected to an inner wall of a lower side of the diversion chamber 21 and extending downward into the diversion chamber 12 Inlet tube 19 in the working chamber 12, connect in inlet tube 19 with connecting tube 16 between the waste water connecting pipe 13, work as water conservancy diversion hole 23 orientation is for when facing left or facing right, the outflow direction of waste water is different, working chamber 12 upside inner wall has set firmly motor 34, motor 34 lower extreme power connection has second transmission shaft 33, be equipped with detection control assembly 902 in the working chamber 12, detection control assembly 902 including rotate connect in detect 14 upside inner wall and upwards extend and with second transmission shaft 33 lower extreme friction connection's third transmission shaft 55, locate detect in the chamber 14 and with third transmission shaft 55 lower extreme fixed connection's impeller 51, when the waste water pollution that lets in is more serious, waste water for impeller 51's resistance is great, thereby impeller 51's rotational speed reduces.

According to the embodiment, the following detailed description is made on the diversion assembly 901, the diversion assembly 901 further includes a sector gear 27 disposed in the working chamber 12 and fixedly connected to the upper end of the first transmission shaft 24, and the radian of the tooth surface of the sector gear 27 is one hundred eighty degrees, the upper end of the diversion shell 20 is rotationally connected to two fourth transmission shafts 28 in bilateral symmetry with respect to the first transmission shaft 24, the fourth transmission shaft 28 is fixedly provided with a first gear 30 capable of engaging with the sector gear 27, a main outlet pipeline 17 is connected between the left end of the diversion chamber 21 and external high-pollution sewage treatment equipment, an auxiliary outlet pipeline 22 is connected between the right end of the diversion chamber 21 and the external low-pollution sewage treatment equipment, the upper end of the wastewater connection pipe 13 is slidably connected to a sliding bracket 32, the sliding bracket 32 is rotationally connected to a fifth transmission shaft 26 extending left and right, a second bevel gear 31 capable of being engaged with the first bevel gear 29 on the left side is fixedly arranged on the fifth transmission shaft 26 on the right side of the sliding support 32, and a third bevel gear 25 capable of being engaged with the first bevel gear 29 on the right side is fixedly arranged on the fifth transmission shaft 26 on the right side of the second bevel gear 31.

According to the embodiment, the detection control assembly 902 is described in detail below, the detection control assembly 902 further includes a fourth bevel gear 52 disposed in the working chamber 12 and fixedly connected to the third transmission shaft 55, a sixth transmission shaft 60 is rotatably connected to a rear inner wall of the working chamber 12, a fifth bevel gear 53 engaged with the fourth bevel gear 52 is fixedly disposed on the sixth transmission shaft 60, a main pulley 59 disposed at a rear side of the fifth bevel gear 53 is fixedly disposed on the sixth transmission shaft 60, a seventh transmission shaft 62 disposed at a left side of the sliding bracket 32 is rotatably connected to a rear inner wall of the working chamber 12, a square rotating block 41 is fixedly disposed on the seventh transmission shaft 62, four mutually communicated slide ways 40 are disposed on the square rotating block 41 in an annular array relative to the seventh transmission shaft 62, a sliding block 39 is slidably connected to the slide ways 40, a spring support 43 disposed on the slide ways 40 and located at a position of the sliding block 39 close to the seventh transmission shaft 62, a first spring 42 is connected between the spring support 43 and the sliding block 39, a secondary pulley 61 positioned at the rear side of the square rotating block 41 is fixedly arranged on the seventh transmission shaft 62, a belt 44 is connected between the secondary pulley 61 and the primary pulley 59, a chute 47 communicated with the working chamber 12 is arranged on the inner wall of the upper side of the detection chamber 14, a baffle plate 15 extending outwards into the working chamber 12 is slidably connected on the chute 47, a horizontal support 45 is fixedly arranged at the right end of the baffle plate 15 positioned in the working chamber 12, a second spring 46 is connected between the horizontal support 45 and the wastewater connecting pipe 13, an eighth transmission shaft 63 positioned at the right side of the sixth transmission shaft 60 is rotatably connected on the inner wall of the front side of the working chamber 12, a friction wheel 49 frictionally connected with the left end of the baffle plate 15 is fixedly arranged on the eighth transmission shaft 63, a sixth bevel gear 48 positioned at the front side of the friction wheel 49 is fixedly arranged on the eighth transmission shaft 63, a seventh bevel gear 58 is fixedly arranged on the second transmission shaft 33, a second gear 56 positioned on the lower side of the seventh bevel gear 58 is fixedly arranged on the second transmission shaft 33, a vertical support 36 positioned on the right side of the second transmission shaft 33 is fixedly arranged on the inner wall of the upper side of the working cavity 12, a third spring 37 is connected between the vertical support 36 and the sliding support 32, a ninth transmission shaft 54 extending downwards is rotatably connected to the lower end of the vertical support 36, an eighth bevel gear 50 engaged with the sixth bevel gear 48 is fixedly arranged on the ninth transmission shaft 54, a third gear 57 engaged with the second gear 56 and positioned on the upper side of the eighth bevel gear 50 is fixedly arranged on the ninth transmission shaft 54, a tenth transmission shaft 38 extending leftwards and rightwards and splined to the left end of the fifth transmission shaft 26 is rotatably connected to the vertical support 36, and a tenth transmission shaft 38 engaged with the seventh bevel gear 58 is fixedly arranged on the tenth transmission shaft 38 positioned on the left side of the vertical support 36 Followed by a ninth bevel gear 35.

In the initial state, the baffle 15 is at the upper limit position, the sliding bracket 32 is at the left limit position, the right first gear 30 is in meshing connection with the sector gear 27, the third bevel gear 25 is in meshing connection with the right first bevel gear 29, and the second bevel gear 31 is in meshing connection with the left first bevel gear 29.

When wastewater enters the detection cavity 14, the motor 34 is started to rotate the second transmission shaft 33, the rotating second transmission shaft 33 sequentially passes through the second gear 56, the third gear 57 and the ninth transmission shaft 54 to drive the eighth bevel gear 50 to rotate, the rotating eighth bevel gear 50 sequentially passes through the sixth bevel gear 48 to drive the eighth transmission shaft 63 to rotate clockwise, the clockwise rotating eighth transmission shaft 63 drives the baffle 15 to move downwards to the lower limit position through the friction wheel 49, the second spring 46 accumulates elastic potential energy, when the baffle 15 moves downwards to the lower limit position, the friction force of the friction wheel 49 on the baffle 15 does not drive the baffle 15 to move downwards any more, so that the wastewater is blocked at the left side of the baffle 15, the rotating second transmission shaft 33 sequentially passes through the seventh bevel gear 58, the ninth bevel gear 35 and the tenth transmission shaft 38 to drive the fifth transmission shaft 26 to rotate, and the rotating fifth transmission shaft 26 passes through the third bevel gear 25, The right first bevel gear 29, the right fourth transmission shaft 28, the right first gear 30 and the sector gear 27 drive the first transmission shaft 24 to rotate one hundred eighty degrees, the rotating first transmission shaft 24 drives the diversion hole 23 to rotate one hundred eighty degrees through the control rotating block 18, so that the diversion hole 23 faces the main outlet pipeline 17, the rotating second transmission shaft 33 drives the third transmission shaft 55 to rotate, the rotating third transmission shaft 55 drives the impeller 51 to rotate, the rotating third transmission shaft 55 sequentially drives the seventh transmission shaft 62 to rotate through the fourth bevel gear 52, the fifth bevel gear 53, the sixth transmission shaft 60, the main belt wheel 59, the belt 44 and the secondary belt wheel 61, the rotating seventh transmission shaft 62 drives the square rotating block 41 to rotate, so that the sliding block 39 moves away from the seventh transmission shaft 62 under the action of centrifugal force, and the first spring 42 accumulates elastic potential energy; when the pollution degree of the wastewater in the detection cavity 14 is low and the viscosity of the wastewater is low and there is almost no resistance to the impeller 51 from the wastewater, the seventh transmission shaft 62 which moves at this time drives the sliding support 32 to move rightwards, the third spring 37 accumulates elastic potential energy, the sliding support 32 which moves rightwards drives the second bevel gear 31 and the first bevel gear 29 to be meshed and connected through the fifth transmission shaft 26, so that the fifth transmission shaft 26 which rotates rightwards drives the first transmission shaft 24 to rotate in the reverse direction by one hundred eighty degrees through the second bevel gear 31, the left first bevel gear 29, the left fourth transmission shaft 28, the left first gear 30 and the sector gear 27, and the first transmission shaft 24 which rotates in the reverse direction drives the diversion hole 23 to rotate in the reverse direction by one hundred eighty degrees through the control rotating block 18, so that the diversion hole 23; when the pollution degree of the wastewater in the detection cavity 14 is higher, the viscosity of the wastewater is higher, and the resistance of the wastewater to the impeller 51 is higher, at this time, the rotating speed of the impeller 51 is reduced, and at this time, the second bevel gear 31 is not in meshed connection with the first bevel gear 29, so that the communication between the diversion hole 23 and the main outlet pipeline 17 is maintained; after diversion is finished, the motor 34 is turned off, so that the impeller 51 loses power and does not rotate any more, the first spring 42 releases elastic potential energy and drives the sliding block 39 to reset, the third spring 37 releases elastic potential energy and drives the sliding support 32 to move leftwards and reset, the third bevel gear 25 is meshed with the first bevel gear 29 on the right side again, the second spring 46 releases elastic potential energy and drives the baffle 15 to reset upwards through the horizontal support 45, and at the moment, waste water in the detection cavity 14 can be led to different waste water treatment places through the connecting pipeline 16, the water inlet pipe 19 and the diversion hole 23.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (3)

1. The utility model provides a wastewater discharge detects guiding device, includes the wastewater discharge casing, be equipped with the working chamber in the wastewater discharge casing, working chamber left side inner wall set firmly connect external with waste water connecting pipe between the working chamber, its characterized in that: the water-saving device is characterized in that a flow guide assembly is arranged in the working cavity, the flow guide assembly comprises a fixed support fixedly arranged on the rear forehead inner wall of the working cavity, a flow guide shell fixedly arranged at the front end of the fixed support, a flow guide cavity arranged in the flow guide shell, a first transmission shaft rotatably connected to the upper inner wall of the flow guide cavity and extending upwards into the working cavity, a control rotating block arranged in the flow guide cavity and fixedly connected with the first transmission shaft, a flow guide hole arranged at the right end of the control rotating block, a water inlet pipe concentrically and rotatably connected to the lower inner wall of the flow guide cavity and extending downwards into the working cavity, and a connecting pipeline connected between the water inlet pipe and the wastewater connecting pipe, a motor is fixedly arranged on the upper inner wall of the working cavity, and the lower end of the motor is dynamically connected with a second; be equipped with the detection control subassembly in the working chamber, the detection control subassembly including rotate connect in detect chamber upside inner wall and upwards extend and with second transmission shaft lower extreme friction connection's third transmission shaft, locate detect the intracavity and with third transmission shaft lower extreme fixed connection's impeller.

2. The wastewater discharge detection diversion device of claim 1, wherein: the diversion assembly also comprises a sector gear which is arranged in the working cavity and is fixedly connected with the upper end of the first transmission shaft, the radian of the tooth surface of the sector gear is one hundred eighty degrees, the upper end of the diversion shell is bilaterally and symmetrically connected with two fourth transmission shafts relative to the first transmission shaft, the fourth transmission shaft is fixedly provided with the first gear which can be meshed and connected with the sector gear, a main outlet pipeline is connected between the left end of the diversion cavity and external high-pollution sewage treatment equipment, an auxiliary outlet pipeline is connected between the right end of the diversion cavity and external low-pollution sewage treatment equipment, the upper end of the wastewater connecting pipe is slidably connected with a sliding support, the sliding support is rotatably connected with a fifth transmission shaft which extends leftwards and rightwards, and the fifth transmission shaft on the right side of the sliding support is fixedly provided with a second bevel gear which can be meshed and connected with the first bevel gear on the left side, and a third bevel gear which is positioned on the right side of the second bevel gear and can be in meshed connection with the first bevel gear on the right side is fixedly arranged on the fifth transmission shaft.

3. The wastewater discharge detection diversion device of claim 1, wherein: the detection control assembly further comprises a fourth bevel gear which is arranged in the working cavity and fixedly connected with the third transmission shaft, a sixth transmission shaft is rotatably connected to the inner wall of the rear side of the working cavity, a fifth bevel gear which is meshed with the fourth bevel gear is fixedly arranged on the sixth transmission shaft, a main belt wheel which is positioned at the rear side of the fifth bevel gear is fixedly arranged on the sixth transmission shaft, a seventh transmission shaft which is positioned at the left side of the sliding support is rotatably connected to the inner wall of the rear side of the working cavity, a square rotating block is fixedly arranged on the seventh transmission shaft, four mutually communicated slideways are arranged on the square rotating block in an annular array mode relative to the seventh transmission shaft, a sliding block is slidably connected onto each slideway, a spring support which is positioned at the position, close to the seventh transmission shaft, of the sliding block is fixedly arranged on each slideway, and a first spring is connected between each spring, the seventh transmission shaft is fixedly provided with an auxiliary belt wheel positioned at the rear side of the square rotating block, a belt is connected between the auxiliary belt wheel and the main belt wheel, the inner wall of the upper side of the detection cavity is provided with a chute communicated with the working cavity, the chute is connected with a baffle plate which extends outwards into the working cavity in a sliding way, the right end of the baffle plate positioned in the working cavity is fixedly provided with a horizontal support, a second spring is connected between the horizontal support and the wastewater connecting pipe, the inner wall of the front side of the working cavity is rotatably connected with an eighth transmission shaft positioned at the right side of the sixth transmission shaft, the eighth transmission shaft is fixedly provided with a friction wheel in friction connection with the left end of the baffle plate, the eighth transmission shaft is fixedly provided with a sixth bevel gear positioned at the front side of the friction wheel, the second transmission shaft is fixedly provided with a seventh bevel gear, and the second transmission shaft is fixedly provided with a second gear positioned at the, the inner wall of the upper side of the working cavity is fixedly provided with a vertical support positioned on the right side of the second transmission shaft, a third spring is connected between the vertical support and the sliding support, the lower end of the vertical support is rotatably connected with a ninth transmission shaft extending downwards, an eighth bevel gear meshed with the sixth bevel gear is fixedly arranged on the ninth transmission shaft, a third gear positioned on the upper side of the eighth bevel gear and meshed with the second gear is fixedly arranged on the ninth transmission shaft, a tenth transmission shaft extending leftwards and rightwards and connected with a left end spline of the fifth transmission shaft is rotatably connected on the vertical support, and a ninth bevel gear meshed with the seventh bevel gear is fixedly arranged on the tenth transmission shaft positioned on the left side of the vertical support.

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