CN211043352U - Factory sewage outlet real-time monitoring device - Google Patents

Abstract

The utility model relates to the technical field of water quality monitoring, in particular to a factory sewage outlet real-time monitoring device, which comprises a clamping fixture, a shell, a water quality detector, a controller, an unreeling mechanism, a material pushing mechanism and a water storage component, wherein the shell is arranged at the top of the clamping fixture, the shell is fixedly connected with the clamping fixture, the water quality detector, the unreeling mechanism, the material pushing mechanism and the water storage component are all arranged inside the shell, the water quality detector, the unreeling mechanism and the material pushing mechanism are all electrically connected with the controller, the working end of the water quality detector runs through the side wall of the shell, the material pushing mechanism runs through the side wall of the shell, the working direction of the material pushing mechanism faces the working end of the water quality detector, the water storage component is arranged at the working end of the material pushing mechanism, the working end of the unreeling mechanism is connected with the water storage component, can store the sampled sewage.

Description

Factory sewage outlet real-time monitoring device

Technical Field

The utility model relates to a water quality monitoring technology field, concretely relates to drain real-time supervision device of mill.

Background

With the increase of income, the attention of residents to environmental problems closely related to body health is continuously increased, and meanwhile, the water pollution range is continuously diffused and the degree is continuously deepened due to the development of industrialization and urbanization. The contradiction between the water environment deterioration and the rise of the people demand standard provides a wide development space for water treatment and related industries;

the development and progress of the sewage treatment industry in China are late, and before the country is built and the reform is opened, the demand of sewage treatment in China is mainly based on the advanced use of industry and national defense; the improvement is open, the rapid development of national economy, the improvement of people's standard of living is showing, the demand of sewage treatment has been spurred, get into twenty century nineties after, the china sewage treatment industry gets into the rapid development phase, the acceleration rate of sewage treatment demand is far higher than the global level, but present current sewage monitoring equipment, can't accomplish in time the sample to the sewage sample, and store, still the manual work is going to gather when the detector appears the police dispatch newspaper not only slow but also, the sample also does not have the practicality.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a drain real-time supervision device of mill, what this equipment can be timely takes a sample to the sewage sample, the output of the manpower that has reduced that can be very big can be stored the sewage after the sampling.

To achieve the purpose, the utility model adopts the following technical proposal:

the real-time monitoring device for the factory sewage draining exit is provided and comprises a clamping clamp, a shell, a water quality detector, a controller, an unreeling mechanism, a material pushing mechanism and a water storage assembly;

the shell is installed at the top of the clamping fixture, the shell is fixedly connected with the clamping fixture, the water quality detector, the unwinding mechanism, the material pushing mechanism and the water storage assembly are all installed inside the shell, the water quality detector, the unwinding mechanism and the material pushing mechanism are all electrically connected with the controller, the working end of the water quality monitor penetrates through the side wall of the shell, the material pushing mechanism penetrates through the side wall of the shell, the working direction of the material pushing mechanism faces towards the working end of the water quality detector, the water storage assembly is installed at the working end of the material pushing mechanism, and the working end of the unwinding mechanism is connected with the water storage.

As an optimal scheme of mill's drain real-time supervision device, unwinding mechanism is including servo motor, frame and transmission shaft, the frame is located the inside of casing, and the bottom fixed connection of frame and casing, the transmission shaft is rotatable to be installed in the frame, servo motor is located driven stress end, and servo motor output shaft and transmission shaft fixed connection, servo motor's bottom is equipped with the motor frame, the motor frame with be located inside the casing, and motor frame and casing bottom fixed connection, servo motor fixed mounting is on the motor frame.

As an optimal scheme of a factory sewage draining exit real-time monitoring device, the material pushing mechanism comprises a linear driver, a material pushing fixing piece and a semicircular limiting piece, the working end of the linear driver penetrates through the side wall of the shell, the linear driver is fixedly connected with the side wall of the shell, the material pushing fixing piece is located at the working end of the linear driver and fixedly connected with the working end of the linear driver, the semicircular limiting piece is located at the working end of the material pushing fixing piece, the opening of the semicircular limiting piece faces towards the working end of the water quality monitor, and the water storage component is installed at the working end of the semicircular limiting piece.

As an optimal scheme of a mill's drain real-time supervision device, the retaining subassembly is including the body, baffle and circular slab, the baffle is the annular slab, the baffle is located the top of body, baffle and body fixed connection, the outer fringe of baffle equals the outer fringe of body, the inner edge of baffle is less than the inner edge of body, the circular slab is located the inside of body, and the bottom that the circular slab is higher than the body is less than the bottom of annular slab, the outer fringe of circular slab is less than the inner edge of body, and the outer fringe of circular slab is greater than the inner edge of annular slab, the top of circular slab is equipped with the go-between.

As an optimal scheme of a factory sewage draining exit real-time monitoring device, the device further comprises a time control switch and a proximity sensor, wherein the time control switch and the proximity switch are electrically connected with the controller, the time control switch and the proximity sensor are installed inside the shell, the working end of the proximity sensor faces the working end of the material pushing mechanism, and the proximity sensor is close to the unwinding mechanism.

As an optimal scheme of mill's drain real-time supervision device, the top of casing is equipped with the top cap, and the top cap is including the articulated elements, apron and joint spare, and the apron is located the top of casing, and the articulated elements is located one side of apron to the articulated lateral wall that is connected in apron and casing respectively, joint spare is located one side of apron, and the articulated elements is kept away from to the joint spare, the stiff end of joint spare and the lateral wall fixed connection of casing, the work end of joint spare can be dismantled with the top of apron and be connected.

The utility model has the advantages that: the water quality detector, the controller, the time control switch, the proximity switch, the unwinding mechanism, the pushing mechanism and the water storage assembly are linked to work, firstly, the working end of the water quality detector detects abnormal water quality at the sewage discharge outlet, the water quality monitor sends an alarm and transmits a signal to the controller, the controller sends a signal to the time control switch, the unwinding mechanism and the pushing mechanism start to work simultaneously, and the pushing mechanism pushes the water storage assembly to the outer side of the shell and stops working, the unwinding mechanism continuously operates and transfers the water storage assembly to a sewage outlet, the water storage assembly samples sewage, the time control switch sends a signal to the controller after the winding time calculated by the time control switch is up, the controller sends a signal to the unwinding mechanism to start winding, the unwinding mechanism pulls the water storage assembly to the working end of the material pushing mechanism, the time control switch sends a signal to the controller after the time control switch calculates the material, the controller sends a signal to the material pushing mechanism to start collecting, the material pushing mechanism moves the sewage sampled by the water storage assembly to the inside of the shell, when the material pushing mechanism is close to the unwinding mechanism, the proximity switch sends a signal to the controller, the controller sends a signal to the unwinding mechanism and the material pushing mechanism, and the unwinding mechanism and the material pushing mechanism stop working the shell to store the sewage sample collected by the water storage assembly after receiving the signal;

1. through a series of chain work of this equipment for when the sewage mouth of mill begins to discharge sewage, can be timely carry out the sample to sewage sample.

2. The equipment has the advantages of ingenious structure and low cost investment, and can greatly reduce the output of manpower.

3. Through the retaining subassembly, can store the sewage after the sampling.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below. It is obvious that the drawings described below are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic diagram of an internal structure of a real-time monitoring device for a factory sewage drain according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an internal structure of a real-time monitoring device for a plant sewage draining outlet according to an embodiment of the present invention;

FIG. 3 is a schematic perspective view of a real-time monitoring device for a drain outlet of a factory according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of an unwinding mechanism according to an embodiment of the present invention;

fig. 5 is a schematic perspective view of a water storage assembly according to an embodiment of the present invention;

fig. 6 is a schematic perspective view of a material pushing assembly according to an embodiment of the present invention.

In the figure:

1. clamping a clamp;

2. a housing; 2a, a top cover; 2a1, cover plate; 2a2, hinge; 2a3, a clip;

3. a water quality monitor;

4. a controller;

5. an unwinding mechanism; 5a, a servo motor; 5b, a frame; 5c, a transmission shaft;

6. a material pushing mechanism; 6a, a linear driver; 6b, pushing and fixing pieces; 6c, a semicircular limiting piece; 6e, a round hole;

7. a water storage assembly; 7a, a bottle body; 7b, a baffle plate; 7c, a circular plate;

8. a time control switch;

9. a proximity sensor.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar parts; in the description of the present invention, it should be understood that if the terms "upper", "lower", "left", "right", "inner", "outer", etc. are used to indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not indicated or implied that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are used only for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms will be understood by those skilled in the art according to the specific circumstances.

In the description of the present invention, unless otherwise explicitly specified or limited, the term "connected" or the like, if appearing to indicate a connection relationship between the components, is to be understood broadly, for example, as being either a fixed connection, a detachable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through one or more other components or may be in an interactive relationship with one another. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 6, the device for monitoring a factory sewage drain in real time comprises a clamping clamp 1, a shell 2, a water quality monitor 3, a controller 4, an unreeling mechanism 5, a material pushing mechanism 6 and a water storage assembly 7;

the water quality monitoring device comprises a shell 2, a water quality monitor 3, an unwinding mechanism 5, a material pushing mechanism 6 and a water storage assembly 7, wherein the shell 2 is arranged at the top of a clamping fixture 1, the shell 2 is fixedly connected with the clamping fixture 1, the water quality monitor 3, the unwinding mechanism 5, the material pushing mechanism 6 and the water storage assembly 7 are all arranged inside the shell 2, the water quality monitor 3, the unwinding mechanism 5 and the material pushing mechanism 6 are all electrically connected with a controller 4, the working end of the water quality monitor penetrates through the side wall of the shell 2, the material pushing mechanism 6 penetrates through the side wall of the shell 2, the working direction of the material pushing mechanism 6 faces the working end of the water quality monitor 3, the;

the clamping fixture 1 is manually installed at a sewage discharge outlet of a factory, when the sewage discharge outlet of the factory begins to discharge sewage, the water quality monitor 3, the controller 4, the unreeling mechanism 5, the material pushing mechanism 6 and the water storage component 7 inside the shell 2 begin to work in a linkage manner, firstly, the working end of the water quality monitor 3 detects abnormal water quality at the sewage discharge outlet, the water monitor gives an alarm and transmits a signal to the controller 4, the controller 4 immediately makes a response, the unreeling mechanism 5 and the material pushing mechanism 6 begin to work simultaneously, the material pushing mechanism 6 pushes the water storage component 7 to the outer side of the shell 2 and stops working, the unreeling mechanism 5 continues to operate and transfers the water storage component 7 to a sewage outlet, the unreeling mechanism 5 pulls the water storage component 7 to the working end of the material pushing mechanism 6 after the sewage is sampled by the water storage component 7, and the material pushing mechanism 6 moves the sewage sampled by the water storage, the material pushing mechanism 6 stops working, the unwinding mechanism 5 stops working, and the shell 2 stores the sewage sample collected by the water storage assembly 7.

The unwinding mechanism 5 comprises a servo motor 5a, a rack 5b and a transmission shaft 5c, the rack 5b is positioned inside the shell 2, the rack 5b is fixedly connected with the bottom of the shell 2, the transmission shaft 5c is rotatably arranged on the rack 5b, the servo motor 5a is positioned at a transmission stress end, an output shaft of the servo motor 5a is fixedly connected with the transmission shaft 5c, a motor frame 5b is arranged at the bottom of the servo motor 5a, the motor frame 5b is positioned inside the shell 2, the motor frame 5b is fixedly connected with the bottom of the shell 2, and the servo motor 5a is fixedly arranged on the motor frame 5 b;

after unwinding mechanism 5 received the signal that controller 4 sent, unwinding mechanism 5 began work, and servo motor 5a drives transmission shaft 5c and rotates together, and the winding has the rope on the transmission shaft 5c, begins to transfer the rope after the transmission shaft 5c atress, and after water storage assembly 7 finishes the water sample collection, servo motor 5a drives transmission shaft 5c and rotates together, begins to roll the rope after the transmission shaft 5c atress. Frame 5b is used for supporting fixed transmission shaft 5c, and transmission shaft 5c is used for supporting winding rope, and servo motor 5a is used for driving transmission shaft 5c to rotate and realizes unreeling work to the rope, and motor frame 5b is used for playing the cooperation when the position of servo motor 5a from 2 bottoms of casing and supports fixed action.

The pushing mechanism 6 comprises a linear driver 6a, a pushing fixing piece 6b and a semicircular limiting piece 6c, the working end of the linear driver 6a penetrates through the side wall of the shell 2, the linear driver 6a is fixedly connected with the side wall of the shell 2, the pushing fixing piece 6b is positioned at the working end of the linear driver 6a, the pushing fixing piece 6b is fixedly connected with the working end of the linear driver 6a, the semicircular limiting piece 6c is positioned at the working end of the pushing fixing piece 6b, the opening of the semicircular limiting piece 6c faces the working end of the water quality monitor, the water storage component 7 is installed at the working end of the semicircular limiting piece 6c, and the linear driver 6a is a ball screw sliding table;

after the pushing mechanism 6 receives a signal sent by the controller 4, the pushing mechanism 6 starts to work, the working end of the linear drive starts to move towards the working end, the working end of the linear driver 6a moves and drives the pushing fixing piece 6b to move together, the semicircular limiting piece 6c is pushed by the pushing fixing piece 6b to start to move, the semicircular limiting piece 6c advances towards the working end of the water quality monitor, the semicircular limiting piece 6c pushes the water storage component 7 out of the shell 2, the water storage component 7 is located in the working area of the water storage component 7, after the water storage component 7 completes a task, the working end of the linear drive starts to move towards the inside of the shell 2, the working end of the linear driver 6a moves and drives the pushing fixing piece 6b to move together, the semicircular limiting piece 6c starts to move by being pulled by the pushing fixing piece 6b, and the water storage component 7 is also pulled by the working end of the unwinding mechanism 5 while being pulled by the water storage The working end of the limiting part 6c and the semicircular limiting part 6c are provided with a round hole 6e for the working end of the unwinding mechanism 5 to pass through, the working end of the unwinding mechanism 5 passes through the round hole 6e and is connected with the water storage assembly 7, and the unwinding mechanism 5 enables the water storage assembly 7 to be located at the working end of the semicircular limiting part 6c all the time.

The water storage component 7 comprises a bottle body 7a, a baffle plate 7b and a circular plate 7c, the baffle plate 7b is an annular plate, the baffle plate 7b is positioned at the top of the bottle body 7a, the baffle plate 7b is fixedly connected with the bottle body 7a, the outer edge of the baffle plate 7b is equal to the outer edge of the bottle body 7a, the inner edge of the baffle plate 7b is smaller than the inner edge of the bottle body 7a, the circular plate 7c is positioned inside the bottle body 7a, the bottom of the circular plate 7c, which is higher than the bottle body 7a, is lower than the bottom of the annular plate, the outer edge of the circular plate 7c is smaller than the inner edge of the bottle body 7a, the outer edge of the circular plate 7c is larger than the inner edge of the;

the working end of the unreeling mechanism 5 is connected with a connecting ring on the circular plate 7c through a rope, when the water storage assembly 7 is in a non-working state, the circular plate 7c is abutted to the bottom of the circular plate, and the circular plate is fixedly connected with the bottle body 7a, so that the water storage assembly 7 is always located at the working end of the pushing assembly, when the water storage assembly 7 is located at a sewage outlet, the bottle body 7a floats on the surface of sewage, a gap appears between the circular plate 7c and the circular plate, and sewage flowing out of a sewage pipe enters the bottle body 7a through the gap.

The automatic unwinding device is characterized by further comprising a time control switch 8 and a proximity sensor 9, wherein the time control switch 8 and the proximity switch are both electrically connected with the controller 4, the time control switch 8 and the proximity sensor 9 are both installed inside the shell 2, the working end of the proximity sensor 9 faces the working end of the material pushing mechanism 6, and the proximity sensor 9 is close to the unwinding mechanism 5;

the time control switch 8 is used for manually setting how long the water storage component 7 needs to be fully filled when the unwinding mechanism 5 is placed at a sewage port, and how long the water storage component 7 needs to be lifted to the working end of the material pushing mechanism 6 from the sewage port in advance, then setting the two to the time control switch 8, when the controller 4 sends a signal to the time control switch 8, the time control switch 8 starts to work, meanwhile, the material pushing mechanism 6 and the unwinding mechanism 5 start to work, after the winding time calculated by the time control switch 8 is up, the time control switch 8 sends a signal to the controller 4, the controller 4 sends a signal to the unwinding mechanism 5 to start winding, when the time control switch 8 calculates the time to receive the materials, the time control switch 8 sends a signal to the controller 4, the controller 4 sends a signal to the material pushing mechanism 6 to start to receive the materials, and the proximity switch is used for when the water storage component 7 is too close to the unwinding mechanism 5, proximity switch sends proximity switch signals and gives controller 4, and controller 4 signals gives unwinding mechanism 5 and pushing equipment 6, and unwinding mechanism 5 and pushing equipment 6 stop work after receiving the signal, proximity switch's model: axmqa 5S2M18, model number of time controlled switch 8: CN 101S.

The top of the housing 2 is provided with a top cover 2a, the top cover 2a comprises a hinge 2a2, a cover plate 2a1 and a clamping member 2a3, the cover plate 2a1 is located at the top of the housing 2, the hinge 2a2 is located at one side of the cover plate 2a1 and is hinged to the side walls of the cover plate 2a1 and the housing 2 respectively, the clamping member 2a3 is located at one side of the cover plate 2a1, the clamping member 2a3 is far away from the hinge 2a2, the fixed end of the clamping member 2a3 is fixedly connected with the side wall of the housing 2, and the working end of the clamping member 2a3 is detachably connected with the top of the cover plate 2a 1;

open joint spare 2a3 and promote apron 2a1 for top cap 2a opens, and the staff all installs water quality monitoring instrument 3, controller 4, unwinding mechanism 5, pushing equipment 6 and water storage component 7 in the inside of casing 2, promotes apron 2a1 through the cooperation of articulated elements 2a2, and apron 2a1 covers the top of casing 2, connects apron 2a1 and casing 2 through joint spare 2a3, protects the mechanism in the casing 2.

The utility model discloses a theory of operation: opening the clamping piece 2a3 to push the cover plate 2a1, so that the top cover 2a is opened, a worker installs the water quality monitor 3, the controller 4, the unreeling mechanism 5, the material pushing mechanism 6 and the water storage assembly 7 in the shell 2, the cover plate 2a1 is pushed through the matching of the hinging piece 2a2, the cover plate 2a1 covers the top of the shell 2, the cover plate 2a1 and the shell 2 are connected through the clamping piece 2a3, the mechanism in the shell 2 is protected, the clamping clamp 1 is manually installed at a sewage discharge outlet of a factory, when the sewage discharge outlet of the factory begins to discharge sewage, the water quality monitor 3, the controller 4, the time control switch 8, the proximity switch, the unreeling mechanism 5, the material pushing mechanism 6 and the water storage assembly 7 begin to work in a linkage manner, firstly, the working end of the water quality monitor 3 detects abnormal water quality at the sewage discharge outlet, the water quality monitor sends an, the controller 4 sends a signal to the time control switch 8, the unreeling mechanism 5 and the pushing mechanism 6 to start working at the same time, the pushing mechanism 6 pushes the water storage component 7 to the outer side of the shell 2 and stops working, the unreeling mechanism 5 continues to operate and transfers the water storage component 7 to a sewage outlet, after the water storage component 7 samples sewage, and after the reeling time calculated by the time control switch 8 is up, the time control switch 8 sends a signal to the controller 4, the controller 4 sends a signal to the unreeling mechanism 5 to start reeling, the unreeling mechanism 5 pulls the water storage component 7 to the working end of the pushing mechanism 6, when the time control switch 8 calculates the amount of the sewage, the time control switch 8 sends a signal to the controller 4, the controller 4 sends a signal to the pushing mechanism 6 to start collecting, the pushing mechanism 6 moves the sewage sampled by the water storage component 7 to the inside of the shell 2, when the pushing mechanism 6 is close to the unreeling mechanism 5, the proximity switch sends a proximity switch signal to the controller 4, the controller 4 sends a signal to the unwinding mechanism 5 and the material pushing mechanism 6, and the unwinding mechanism 5 and the material pushing mechanism 6 stop working after receiving the signal, so that the shell 2 stores the sewage sample collected by the water storage component 7.

It should be understood that the above-described embodiments are merely illustrative of the preferred embodiments of the present invention and the technical principles thereof. It will be understood by those skilled in the art that various modifications, equivalents, changes, and the like can be made to the present invention. However, these modifications are within the scope of the present invention as long as they do not depart from the spirit of the present invention. In addition, certain terms used in the specification and claims of the present application are not limiting, but are used merely for convenience of description.

Claims (6)

1. A real-time monitoring device for a factory sewage draining exit is characterized by comprising a clamping clamp (1), a shell (2), a water quality monitor (3), a controller (4), an unreeling mechanism (5), a material pushing mechanism (6) and a water storage assembly (7);

casing (2) are installed at the top that is located joint anchor clamps (1), and casing (2) and joint anchor clamps (1) fixed connection, water quality monitor (3), unwinding mechanism (5), pushing equipment (6) and retaining subassembly (7) are all installed in the inside of casing (2), water quality monitor (3), unwinding mechanism (5) and pushing equipment (6) all are connected with controller (4) electricity, the lateral wall of casing (2) is run through to water quality monitor's work end, pushing equipment (6) run through the lateral wall of casing (2), and the work direction of pushing equipment (6) is towards the work end of water quality monitor (3), retaining subassembly (7) are installed in the work end of pushing equipment (6), the work end and the retaining subassembly (7) of unwinding mechanism (5) are connected.

2. The factory sewage draining exit real-time monitoring device according to claim 1, wherein the unreeling mechanism (5) comprises a servo motor (5a), a rack (5b) and a transmission shaft (5c), the rack (5b) is located inside the casing (2), the rack (5b) is fixedly connected with the bottom of the casing (2), the transmission shaft (5c) is rotatably installed on the rack (5b), the servo motor (5a) is located at a force bearing end of transmission, an output shaft of the servo motor (5a) is fixedly connected with the transmission shaft (5c), a motor frame (5b) is arranged at the bottom of the servo motor (5a), the motor frame (5b) is located inside the casing (2), the motor frame (5b) is fixedly connected with the bottom of the casing (2), and the servo motor (5a) is fixedly installed on the motor frame (5 b).

3. The real-time monitoring device for the factory sewage draining exit according to claim 1, characterized in that the material pushing mechanism (6) comprises a linear driver (6a), a material pushing fixing member (6b) and a semicircular limiting member (6c), the working end of the linear driver (6a) penetrates through the side wall of the shell (2), and the linear driver (6a) is fixedly connected with the side wall of the shell (2), the pushing fixing piece (6b) is positioned at the working end of the linear driver (6a), the pushing fixing piece (6b) is fixedly connected with the working end of the linear driver (6a), the semicircular limiting piece (6c) is positioned at the working end of the pushing fixing piece (6b), and the opening part of the semicircular limiting part (6c) faces the working end of the water quality monitor, the water storage component (7) is installed at the working end of the semicircular limiting part (6c), and the linear driver (6a) is a ball screw sliding table.

4. The real-time factory sewage draining outlet monitoring device according to claim 1, wherein the water storage component (7) comprises a bottle body (7a), a baffle plate (7b) and a circular plate (7c), the baffle plate (7b) is an annular plate, the baffle plate (7b) is positioned at the top of the bottle body (7a), the baffle plate (7b) is fixedly connected with the bottle body (7a), the outer edge of the baffle plate (7b) is equal to the outer edge of the bottle body (7a), the inner edge of the baffle plate (7b) is smaller than the inner edge of the bottle body (7a), and the circular plate (7c) is positioned inside the bottle body (7a), the circular plate (7c) is higher than the bottom of the bottle body (7a) and lower than the bottom of the annular plate, the outer edge of the circular plate (7c) is smaller than the inner edge of the bottle body (7a), the outer edge of the circular plate (7c) is larger than the inner edge of the annular plate, and the top of the circular plate (7c) is provided with a connecting ring.

5. The real-time factory sewage draining exit monitoring device according to claim 1, further comprising a time control switch (8) and a proximity sensor (9), wherein the time control switch (8) and the proximity switch are both electrically connected with the controller (4), the time control switch (8) and the proximity sensor (9) are both installed inside the shell (2), the working end of the proximity sensor (9) faces the working end of the material pushing mechanism (6), and the proximity sensor (9) is close to the unwinding mechanism (5).

6. The real-time monitoring device for the sewage draining exit of the factory as claimed in claim 1, wherein a top cover (2a) is arranged at the top of the housing (2), the top cover (2a) comprises a hinge member (2a2), a cover plate (2a1) and a clamping member (2a3), the cover plate (2a1) is arranged at the top of the housing (2), the hinge member (2a2) is arranged at one side of the cover plate (2a1) and is hinged to the side walls of the cover plate (2a1) and the housing (2), the clamping member (2a3) is arranged at one side of the cover plate (2a1), the clamping member (2a3) is far away from the hinge member (2a2), the fixed end of the clamping member (2a3) is fixedly connected with the side wall of the housing (2), and the working end of the clamping member (2a3) is detachably connected with the top of the cover plate (2a 1).

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