CN213068648U - Movable textile wastewater detection device - Google Patents

Abstract

The utility model discloses a portable weaving waste water detection device, including detection case, PH detection mechanism, wiper mechanism and controller: the bottom of the detection box is provided with wheels; the PH detection mechanism is arranged in the detection box and comprises a first detection cup and a PH test paper component, the PH test paper component is used for conveying PH test paper into the first detection cup, the first detection cup is rotationally connected with the inner wall of the detection box through a turnover frame, the turnover frame is provided with a detection position and a cleaning position, when the first detection cup is located at the detection position, an opening of the first detection cup is vertically upward, and when the first detection cup is located at the cleaning position, the opening of the first detection cup is inclined downward; the wiper mechanism includes the washing tank, is provided with the washing portion in it, and the washing portion can stretch into to first detection cup in, and one side of washing tank is provided with clear water tank and wastewater tank, and clear water tank is connected with the washing portion through first water pump, washing tank and wastewater tank intercommunication. The utility model discloses a portable weaving waste water detection device can detect and wash automatically.

Description

Movable textile wastewater detection device

Technical Field

The utility model relates to a waste water detection equipment technical field especially relates to a portable weaving waste water detection device.

Background

The inevitable production of waste water during the processing of textiles requires the detection of the waste water before it can be treated in order to be able to treat it accurately. At present, most of textile wastewater detection is carried out manually, the detection efficiency is low, and after the detection is finished, containers for detecting the wastewater are manually cleaned, so that the operation is complex.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an aim at: a mobile textile wastewater detection device is provided, which can be moved to a position to be detected.

The embodiment of the utility model provides a another aim at: the utility model provides a portable weaving waste water detection device, it can detect waste water automatically.

The embodiment of the utility model provides a still another aim at: the utility model provides a portable weaving waste water detection device, can wash automatically after its detection.

To achieve the purpose, the embodiment of the present invention adopts the following technical solutions:

provided is a mobile textile wastewater detection device, including:

the detection box is internally provided with a detection cavity, the bottom of the detection box is provided with wheels, and the wheels are in transmission connection with a first driving mechanism;

the PH detection mechanism is arranged in the detection cavity and comprises a first detection cup and a PH test paper component, the PH test paper component is used for conveying PH test paper into the first detection cup, the first detection cup is rotationally connected with the inner wall of the detection box through a turnover frame, the turnover frame is provided with a detection position and a cleaning position, when the turnover frame is located at the detection position, the opening of the first detection cup is vertically upward, and when the turnover frame is located at the cleaning position, the opening of the first detection cup is inclined downward;

the cleaning mechanism is arranged in the detection cavity and comprises a cleaning groove, the cleaning groove is positioned on one side of the first detection cup, a cleaning part is arranged in the cleaning groove, when the turnover frame is positioned at a cleaning position, an opening of the first detection cup is positioned right above the cleaning groove, the cleaning part can extend into the first detection cup, a clean water tank and a waste water tank are arranged on one side of the cleaning groove, the clean water tank is connected with the cleaning part through a first water pump, and the cleaning groove is communicated with the waste water tank;

the controller, the controller is connected with the display screen, the display screen is installed the outer wall of detection case, a drive mechanism, the roll-over stand with first water pump all with the controller is connected.

As a preferred scheme of the mobile textile wastewater detection device, the cleaning part comprises a first water pipe, one end of the first water pipe is connected with an annular second water pipe, the first water pipe is communicated with the first water pump, and a first cleaning hole for cleaning the bottom of the first detection cup and a second cleaning hole for cleaning the wall of the first detection cup are formed in the second water pipe.

As a preferred scheme of portable weaving waste water detection device, first water pipe sets up on flexible seat, flexible seat is installed in the washing tank, first water pipe is kept away from the one end of second water pipe pass through the hose with first water pump intercommunication.

As a preferable scheme of the mobile textile wastewater detection device, when the roll-over stand is located at a detection position, the PH test paper assembly is located right above the first detection cup, the PH test paper assembly comprises a winding drum, a conveying roller and a recovery roller, the winding drum is wound with PH test paper, the conveying roller is arranged below the winding drum, the conveying roller comprises a driving roller and a driven roller, the driving roller is in transmission connection with a second driving mechanism, the driving roller rotates to drive the PH test paper between the driving roller and the driven roller to move downwards, the recovery roller is located at one side of the conveying roller, the recovery roller is in transmission connection with a third driving mechanism, the end part of the PH test paper is fixed on the recovery roller, the third driving mechanism drives the recovery roller to rotate so as to wind and recover the used PH test paper, and at least part of the PH test paper between the conveying roller and the recovery roller is located in the first detection cup, the second driving mechanism and the third driving mechanism are both connected with the controller.

As a preferred scheme of the mobile textile wastewater detection device, the first detection cup is a transparent cup, and a transparent observation area corresponding to the first detection cup is arranged on the detection box.

As an optimal scheme of the movable textile wastewater detection device, a camera assembly is arranged in the detection box, the camera assembly is over against the first detection cup, and the camera assembly is connected with the controller.

As a portable weaving waste water detection device's an preferred scheme, still including the mechanism of drawing water, the mechanism of drawing water includes the suction pump, the suction pump sets up detect the intracavity, an inlet tube that is used for drawing waste water from the outside is connected to the entry end of suction pump, the inlet tube runs through to be located through-hole on the detection case extends to outside the detection case, the exit end of suction pump with first detection cup intercommunication, the suction pump with the controller is connected.

As a portable weaving waste water detection device's a preferred scheme, still include ion detection mechanism and COD survey mechanism, PH detection mechanism ion detection mechanism with COD surveys the mechanism and connects gradually, ion detection mechanism is used for detecting the ion quantity in the waste water, COD surveys the mechanism and is used for detecting the reducing substance in the waste water and takes place the volume of oxygen consumption during the redox reaction under the effect of strong oxidizer, ion detection mechanism with COD surveys the mechanism respectively with the controller is connected.

As a preferable scheme of the mobile textile wastewater detection device, the ion detection mechanism comprises a second detection cup, a light emitting diode, a power supply part, an anode connector and a cathode connector, the first detection cup and the second detection cup are communicated through a first pipeline, the anode connector and the cathode connector are arranged at the bottom of the second detection cup, the light emitting diode is arranged outside the detection box, the power supply part supplies power to the light emitting diode, and the anode connector, the light emitting diode, the power supply part and the cathode connector are sequentially connected in series; and/or the presence of a gas in the gas,

COD survey mechanism includes the medical kit, adds pencil and third and detects the cup, the third detect the cup through the second pipeline with the second detects cup intercommunication, potassium permanganate granule has been placed in the medical kit, the medical kit passes through add the pencil to carry in the third detects the cup the potassium permanganate granule.

As a preferred scheme of the movable textile wastewater detection device, the second detection cup and the third detection cup are both arranged on the turnover frame, when the turnover frame is positioned at a cleaning position, the openings of the second detection cup and the third detection cup are both positioned right above the cleaning tank, three cleaning parts are arranged in the cleaning tank, and the three cleaning parts can be respectively inserted into the first detection cup, the second detection cup and the third detection cup.

The utility model discloses beneficial effect does: the wheels driven by the first driving mechanism are arranged at the bottom of the detection box, so that the detection box can be automatically moved to a position to be detected without manually carrying equipment; by arranging the PH detection mechanism, the PH value of the wastewater in the first detection cup can be automatically detected, the operation difficulty is reduced, and the detection efficiency is improved; through setting up wiper mechanism to with first detection cup setting on the roll-over stand, can utilize the roll-over stand to make first detection cup switch in detection and abluent position, and during the washing, abluent sewage can be in automatic inflow washing tank, waste water tank centralized processing is collected to the rethread washing tank, and whole washing and sewage are collected and are all accomplished voluntarily, operate very simply.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Fig. 1 is a schematic sectional view of a mobile textile wastewater detection device according to an embodiment of the present invention (a cleaning mechanism is not shown).

Fig. 2 is a schematic top view of the mobile textile wastewater detection device according to an embodiment of the present invention (with the upper cover and the PH test paper assembly hidden, showing the cleaning mechanism).

Fig. 3 is an assembled perspective view of the cleaning tank, the cleaning section and the retractable stand according to the embodiment of the present invention.

Fig. 4 is a partially enlarged view of a portion a of fig. 3.

Fig. 5 is a schematic sectional view of a mobile textile wastewater detection device according to another embodiment of the present invention (a cleaning mechanism is not shown).

Fig. 6 is a schematic perspective view of a water pan according to another embodiment of the present invention.

In the figure:

1. a detection box; 101. a detection chamber; 102. a wheel; 103. a bottom case; 104. an upper cover; 2. a pH detection mechanism; 201. a first detection cup; 202. pH test paper; 203. a reel; 204. a drive roll; 205. a driven roller; 206. a recovery roller; 3. a roll-over stand; 4. a cleaning mechanism; 401. a cleaning tank; 402. a cleaning section; 4021. a first water pipe; 4022. a second water pipe; 40221. a first cleaning hole; 40222. a second cleaning hole; 403. a clear water tank; 404. a wastewater tank; 405. a telescopic base; 5. a display screen; 6. a camera assembly; 7. a water pump; 8. an ion detection mechanism; 801. a second detection cup; 802. a light emitting diode; 9. a COD measuring mechanism; 901. a medicine chest; 902. a medicine feeding pipe; 903. a third detection cup; 10. a first conduit; 11. a second conduit; 12. a water pan; 1201. a plate body; 1202. a baffle plate; 13. an electromagnetic valve.

Detailed Description

In order to make the technical problems, technical solutions and technical effects achieved by the present invention more clear, the embodiments of the present invention will be described in further detail with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

As shown in fig. 1 to 4, the mobile textile wastewater detection device according to the embodiment of the present invention includes a detection box 1, a PH detection mechanism 2, a cleaning mechanism 4, and a controller (not shown in the drawings), wherein the detection box 1 has a detection chamber 101 therein, the bottom of the detection box 1 is provided with wheels 102, and the wheels 102 are in transmission connection with a first driving mechanism; the PH detection mechanism 2 is arranged in the detection cavity 101, the PH detection mechanism 2 comprises a first detection cup 201 and a PH test paper component, the PH test paper component is used for conveying PH test paper 202 into the first detection cup 201, the first detection cup 201 is rotatably connected with the inner wall of the detection box 1 through a turnover frame 3, the turnover frame 3 is provided with a detection position and a cleaning position, when the turnover frame 3 is located at the detection position, an opening of the first detection cup 201 is vertically upward, and when the turnover frame 3 is located at the cleaning position, the opening of the first detection cup 201 is inclined downward; the cleaning mechanism 4 is arranged in the detection cavity 101, the cleaning mechanism 4 comprises a cleaning tank 401, the cleaning tank 401 is positioned at one side of the first detection cup 201, a cleaning part 402 is arranged in the cleaning tank 401, when the roll-over stand 3 is positioned at a cleaning position, an opening of the first detection cup 201 is positioned right above the cleaning tank 401, the cleaning part 402 can extend into the first detection cup 201, a clean water tank 403 and a waste water tank 404 are arranged at one side of the cleaning tank 401, the clean water tank 403 is connected with the cleaning part 402 through a first water pump, and the cleaning tank 401 is communicated with the waste water tank 404; the controller is connected with display screen 5, display screen 5 installs the outer wall of detection case 1, a drive mechanism, roll-over stand 3 with first water pump all with the controller is connected. The wheels 102 driven by the first driving mechanism are arranged at the bottom of the detection box 1, so that the detection box 1 can be automatically moved to a position to be detected without manually carrying equipment; by arranging the PH detection mechanism 2, the PH value of the wastewater in the first detection cup 201 can be automatically detected, the operation difficulty is reduced, and the detection efficiency is improved; through setting up wiper mechanism 4 to with first detection cup 201 setting on roll-over stand 3, can utilize roll-over stand 3 to make first detection cup 201 switch in detection and abluent position, and when wasing, abluent sewage can flow into washing tank 401 automatically in, waste water tank 404 centralized processing is collected to rethread washing tank 401, and whole washing and sewage collection all are automatic completions, and the operation is very simple.

In an embodiment, the cleaning part 402 includes a first water pipe 4021, one end of the first water pipe 4021 is connected to an annular second water pipe 4022, the first water pipe 4021 is communicated with the first water pump, and the second water pipe 4022 is provided with a first cleaning hole 40221 for cleaning the bottom of the first detection cup 201 and a second cleaning hole 40222 for cleaning the wall of the first detection cup 201. By providing the second water pipe 4022 having a ring shape, the inside of the first detection cup 201 can be entirely flushed.

Preferably, the first water pipe 4021 is arranged on a telescopic base 405, the telescopic base 405 is installed in the cleaning tank 401, and one end of the first water pipe 4021 far from the second water pipe 4022 is communicated with the first water pump through a hose (not shown in the figure). By arranging the telescopic seat 405, the first detection cup 201 can be moved and washed, and the cleaning part 402 does not interfere with the position of the overturned first detection cup 201 due to the design.

In one embodiment, when the turning frame 3 is located at the detection position, the PH indicator paper assembly is located right above the first detection cup 201, the PH indicator paper assembly includes a winding drum 203, a conveying roller and a recovery roller 206, the PH indicator paper 202 is wound on the winding drum 203, the conveying roller is located below the winding drum 203, the conveying roller includes a driving roller 204 and a driven roller 205, the driving roller 204 is in transmission connection with a second driving mechanism, the driving roller 204 rotates to drive the PH indicator paper 202 between the driving roller 204 and the driven roller 205 to move downwards, the recovery roller 206 is located at one side of the conveying roller, the recovery roller 206 is in transmission connection with a third driving mechanism, an end of the PH indicator paper 202 is fixed on the recovery roller 206, the third driving mechanism drives the recovery roller 206 to rotate to wind and recover the used PH indicator paper 202, the PH test paper 202 between the feeding roller and the recovery roller 206 is at least partially located in the first detection cup 201, and the second driving mechanism and the third driving mechanism are both connected to the controller. Through setting up reel 203 and conveying roller, can carry PH test paper 202 automatically and carry out the PH value and detect in first detection cup 201, and the setting of retrieving roller 206 can be automatically with the used PH test paper 202 coiling recovery, no matter put PH test paper 202 or receive PH test paper 202 and all be automatic completion, need not manual operation, automatic detection and automatic the retrieving can promote detection efficiency effectively, reduce the operation degree of difficulty.

In this embodiment, the first detecting cup 201 is a transparent cup, and the detecting box 1 has a transparent observation area corresponding to the first detecting cup 201. By setting the first measuring cup 201 as a transparent cup and setting the observation area on the measuring box 1, the color of the PH test paper 202 in the first measuring cup 201 can be observed from the outside to determine the PH of the wastewater in the first measuring cup 201 at that time.

Preferably, a camera assembly 6 is arranged in the detection box 1, the camera assembly 6 is opposite to the first detection cup 201, and the camera assembly 6 is connected with the controller. Through setting up camera subassembly 6, can send the picture that the PH value reaction that detects in the first detection cup 201 discolours to the controller through the mode of taking the picture, the controller compares picture and the pH of prestoring and compares the colour chip, can judge the PH value of waste water this moment automatically, then automatic display is on display screen 5, need not the manual work and compare through observing, promotes detection speed and precision.

In this embodiment, the camera assembly 6 includes a camera and a fill light located on one side of the camera. Through setting up the light filling lamp, can increase the luminance that the camera shot the region, guarantee that the camera can shoot clearly.

Set up the mechanism of drawing water in detection case 1, the mechanism of drawing water includes suction pump 7, suction pump 7 sets up detect the intracavity 101, an inlet tube that is used for following the outside extraction waste water is connected to the entry end of suction pump 7, the inlet tube runs through to be located through-hole on the detection case 1 extends to outside the detection case 1, the exit end of suction pump 7 with first detection cup 201 intercommunication, suction pump 7 with the controller is connected. Through setting up the mechanism of drawing water, can be automatically with waiting to detect the quantitative suction of waste water to PH detection mechanism 2 in the first detection cup 201, need not artifical manual waste water of getting.

The detection box 1 comprises a bottom shell 103 and an upper cover 104, an opening is formed in the top of the bottom shell 103, the upper cover 104 is detachably connected to the top of the bottom shell 103 and seals the opening in the top of the bottom shell 103, and the display screen 5 is fixed on one side face, far away from the bottom shell 103, of the upper cover 104.

In this embodiment, the friction coefficient of the surfaces of the driving roller 204 and the driven roller 205 is high, and the driving roller 204 and the driven roller 205 can be effectively abutted against the surface of the PH test paper 202, when the second driving mechanism is started, the driving roller 204 rotates clockwise, the driven roller 205 rotates counterclockwise under the action of the driving roller 204, and the PH test paper 202 sandwiched between the driving roller 204 and the driven roller 205 moves downward under the action of friction until the PH test paper 202 below the driving roller 204 extends into the first detection cup 201 to contact with the wastewater.

The second driving mechanism may be a motor, an output shaft end of the motor is connected to the driving roller 204, or the output shaft end of the motor is engaged with a gear on one end of the driving roller 204 through a gear set to drive the driving roller 204 to rotate, or the output shaft of the motor is in transmission connection with the driving roller 204 through a belt.

The third driving mechanism can be a motor or the like which can drive the recovery roller 206 to rotate, the second driving mechanism and the third driving mechanism are started in a crossing manner, namely when the PH value of the wastewater in the first detection cup 201 needs to be detected, the second driving mechanism is started, the driving roller 204 and the driven roller 205 convey the PH test paper 202 to move downwards, at the moment, the third driving mechanism is not started, after the detection of the PH value is needed, the third driving mechanism is started, the second driving mechanism is not started, and the recovery roller 206 rotates to wind and recover the used PH test paper 202.

In one embodiment, the recovery roller 206 is located right above the first detection cup 201, which prevents the wastewater from dripping outside the first detection cup 201 when the recovery roller 206 recovers the PH paper 202.

In other embodiments, the recovery roller 206 is not limited to be disposed directly above the first detection cup 201, and the recovery roller 206 may be disposed at one side of the first detection cup 201, as shown in fig. 5 and 6, a water receiving tray 12 is disposed below the recovery roller 206, and the water receiving tray 12 collects waste water between the first detection cup 201 and the recovery roller 206 and on the recovery roller 206 and guides the waste water back to the first detection cup 201. Through setting up water collector 12, can prevent effectively that recovery roller 206 from retrieving the in-process of used PH test paper 202 at the coiling, the waste water drippage on PH test paper 202 is outside outer wall, the first detection cup 201 of first detection cup 201.

The water pan 12 includes an inclined plate body 1201, one end of the plate body 1201 is located right below the recovery roller 206, the other end extends to above the cup opening of the first detection cup 201, and baffles 1202 extend upwards from both ends of the plate body 1201 in the width direction. The baffle 1202 prevents water from dripping from the plate body 1201 to the outside of the drip tray 12.

Portable weaving waste water detection device still includes ion detection mechanism 8 and COD survey mechanism 9, PH detection mechanism 2 ion detection mechanism 8 with COD survey mechanism 9 connects gradually, ion detection mechanism 8 is used for detecting the ion quantity in the waste water, COD survey mechanism 9 is used for detecting the amount of oxygen that consumes when the reductive substance in the waste water takes place the redox reaction under the effect of strong oxidizer, ion detection mechanism 8 with COD survey mechanism 9 respectively with the controller is connected.

In this embodiment, the ion detection mechanism 8 includes a second detection cup 801, a light emitting diode 802, a power supply component, a positive electrode connector and a negative electrode connector, the first detection cup 201 and the second detection cup 801 are communicated through a first pipeline 10, the positive electrode connector and the negative electrode connector are disposed at the bottom of the second detection cup 801, the light emitting diode 802 is disposed outside the detection box 1, the power supply component supplies power to the light emitting diode 802, and the positive electrode connector, the light emitting diode 802, the power supply component and the negative electrode connector are sequentially connected in series. The power supply means can energize and emit the light emitting diode 802, and the conductivity of the light emitting diode 802 is higher as the amount of ions in the wastewater is larger, and the brightness of the light emitting diode 802 is higher, and the amount of ions in the wastewater is determined by observing the brightness of the light emitting diode 802.

The COD measuring mechanism 9 includes a medicine box 901, a medicine feeding pipe 902, and a third detection cup 903, the third detection cup 903 is communicated with the second detection cup 801 through a second pipeline 11, potassium permanganate particles are placed in the medicine box 901, and the medicine box 901 conveys the potassium permanganate particles into the third detection cup 903 through the medicine feeding pipe 902. The potassium permanganate particles are dissolved in water after entering the wastewater and gradually become purple red, the potassium permanganate oxidizes impurities in the water, the purple red of the potassium permanganate particles can be reduced and faded, and the time required by adding the potassium permanganate particles into the water until the water is completely faded is recorded.

In one embodiment, the second detecting cup 801 and the third detecting cup 903 are both mounted on the flip frame 3, when the flip frame 3 is located at the cleaning position, the openings of the second detecting cup 801 and the third detecting cup 903 are both located right above the cleaning tank 401, three cleaning parts 402 are disposed in the cleaning tank 401, and the three cleaning parts 402 can be inserted into the first detecting cup 201, the second detecting cup 801 and the third detecting cup 903 respectively. The three detection cups rotate simultaneously, the structure of the roll-over stand 3 can be simplified, and the cleaning part 402 in the cleaning tank 401 can clean the three detection cups, so that the cleaning time is shortened.

Further, one end of the first pipeline 10 is connected to the bottom of the first detection cup 201, the other end is connected to the second detection cup 801, and the end of the first pipeline 10 connected to the first detection cup 201 is higher than the end connected to the second detection cup 801; one end of the second pipeline 11 is connected to the bottom of the second detection cup 801, the other end is connected to the third detection cup 903, and the end of the second pipeline 11 connected to the second detection cup 801 is higher than the end connected to the third detection cup 903. The design can be used for driving water pumping without extra power, so that all wastewater in the first detection cup 201 enters the second detection cup 801, and all wastewater in the second detection cup 801 enters the third detection cup 903.

All be provided with solenoid valve 13 on first pipeline 10 and the second pipeline 11, solenoid valve 13 is connected with the controller, and the controller controls corresponding battery valve as required and opens for in putting waste water to the second after the detection in the first detection cup 201 and detecting in the cup 801, likewise, put waste water to the third after the detection in the second detection cup 801 and detecting in the cup 903 again, guarantee that every detects and can both accurately accomplish.

Preferably, the camera assembly 6 may further be movably disposed, the first detection cup 201, the second detection cup 801 and the third detection cup 903 are arranged at intervals along a moving direction of the camera assembly 6, the second detection cup 801 and the third detection cup 903 are transparent cups, and the camera assembly 6 can shoot detection states in the first detection cup 201 and the third detection cup 903. Through setting up portable camera subassembly 6, can realize that a camera subassembly 6 monitors and data acquisition the detection state that first detection cup 201 and third detected cup 903, camera subassembly 6 can shoot out the colour picture of waste water pH value, the muddy degree picture after the waste water circular telegram and the picture of potassium permanganate granule and waste water reaction.

The camera assembly 6 further comprises a base, the camera and the light supplementing lamp are arranged on the base, the base is connected with a fourth driving mechanism for pushing the camera assembly 6 to move, the fourth driving mechanism comprises a motor, the output shaft end of the motor is connected with a lead screw, one end, far away from the motor, of the lead screw is connected with the inner wall of the detection box 1 through a supporting seat, a nut is arranged on the lead screw in a transmission mode, and the nut is fixed on one side face, far away from the camera, of the base.

In order to ensure smooth transmission, the guide rod is further arranged and is parallel to the screw rod, and a guide hole for the guide rod to pass through is formed in the base.

In the description herein, it is to be understood that the terms "upper" and the like are used in a descriptive sense and based on the orientation or positional relationship shown in the drawings for convenience in description and simplicity of operation, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, configuration and operation in a particular orientation, and therefore should not be construed as limiting the present invention.

In the description herein, references to the description of "an embodiment" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be appropriately combined to form other embodiments as will be appreciated by those skilled in the art.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The utility model provides a portable weaving waste water detection device which characterized in that includes:

the detection box is internally provided with a detection cavity, the bottom of the detection box is provided with wheels, and the wheels are in transmission connection with a first driving mechanism;

the PH detection mechanism is arranged in the detection cavity and comprises a first detection cup and a PH test paper component, the PH test paper component is used for conveying PH test paper into the first detection cup, the first detection cup is rotationally connected with the inner wall of the detection box through a turnover frame, the turnover frame is provided with a detection position and a cleaning position, when the turnover frame is located at the detection position, the opening of the first detection cup is vertically upward, and when the turnover frame is located at the cleaning position, the opening of the first detection cup is inclined downward;

the cleaning mechanism is arranged in the detection cavity and comprises a cleaning groove, the cleaning groove is positioned on one side of the first detection cup, a cleaning part is arranged in the cleaning groove, when the turnover frame is positioned at a cleaning position, an opening of the first detection cup is positioned right above the cleaning groove, the cleaning part can extend into the first detection cup, a clean water tank and a waste water tank are arranged on one side of the cleaning groove, the clean water tank is connected with the cleaning part through a first water pump, and the cleaning groove is communicated with the waste water tank;

the controller, the controller is connected with the display screen, the display screen is installed the outer wall of detection case, a drive mechanism, the roll-over stand with first water pump all with the controller is connected.

2. The mobile textile wastewater detection device of claim 1, wherein the cleaning part comprises a first water pipe, one end of the first water pipe is connected with an annular second water pipe, the first water pipe is communicated with the first water pump, and a first cleaning hole for cleaning the bottom of the first detection cup and a second cleaning hole for cleaning the wall of the first detection cup are formed in the second water pipe.

3. The mobile textile wastewater detection device of claim 2, wherein the first water pipe is arranged on a telescopic seat, the telescopic seat is installed in the cleaning tank, and one end of the first water pipe, which is far away from the second water pipe, is communicated with the first water pump through a hose.

4. The mobile textile wastewater detection device of claim 1, wherein when the roll-over stand is located at a detection position, the pH test paper assembly is located right above the first detection cup, the pH test paper assembly comprises a winding drum, a conveying roller and a recovery roller, the winding drum is wound with pH test paper, the conveying roller is arranged below the winding drum, the conveying roller comprises a driving roller and a driven roller, the driving roller is in transmission connection with a second driving mechanism, the driving roller rotates to drive the pH test paper between the driving roller and the driven roller to move downwards, the recovery roller is located at one side of the conveying roller, the recovery roller is in transmission connection with a third driving mechanism, the end of the pH test paper is fixed on the recovery roller, the third driving mechanism drives the recovery roller to rotate so as to wind and recover the used pH test paper, the PH test paper between the conveying roller and the recovery roller is at least partially positioned in the first detection cup, and the second driving mechanism and the third driving mechanism are both connected with the controller.

5. The mobile textile wastewater detection device of claim 4, wherein the first detection cup is a transparent cup, and the detection box has a transparent observation area corresponding to the first detection cup.

6. The mobile textile wastewater detection device according to claim 1, 4 or 5, wherein a camera assembly is arranged in the detection box, the camera assembly faces the first detection cup, and the camera assembly is connected with the controller.

7. The mobile textile wastewater detection device according to claim 1, further comprising a water pumping mechanism, wherein the water pumping mechanism comprises a water pumping pump, the water pumping pump is arranged in the detection cavity, an inlet pipe for externally pumping wastewater is connected to an inlet end of the water pumping pump, the inlet pipe extends out of the detection box through a through hole in the detection box, an outlet end of the water pumping pump is communicated with the first detection cup, and the water pumping pump is connected with the controller.

8. The mobile textile wastewater detection device according to any one of claims 1 to 5, further comprising an ion detection mechanism and a COD determination mechanism, wherein the PH detection mechanism, the ion detection mechanism and the COD determination mechanism are sequentially connected, the ion detection mechanism is used for detecting the ion amount in the wastewater, the COD determination mechanism is used for detecting the oxygen consumption amount of reducing substances in the wastewater during oxidation-reduction reaction under the action of a strong oxidant, and the ion detection mechanism and the COD determination mechanism are respectively connected with the controller.

9. The mobile textile wastewater detection device according to claim 8, wherein the ion detection mechanism comprises a second detection cup, a light emitting diode, a power supply component, a positive connector and a negative connector, the first detection cup and the second detection cup are communicated through a first pipeline, the positive connector and the negative connector are arranged at the bottom of the second detection cup, the light emitting diode is arranged outside the detection box, the power supply component supplies power to the light emitting diode, and the positive connector, the light emitting diode, the power supply component and the negative connector are sequentially connected in series; and/or the presence of a gas in the gas,

COD survey mechanism includes the medical kit, adds pencil and third and detects the cup, the third detect the cup through the second pipeline with the second detects cup intercommunication, potassium permanganate granule has been placed in the medical kit, the medical kit passes through add the pencil to carry in the third detects the cup the potassium permanganate granule.

10. The mobile textile wastewater detection device of claim 9, wherein the second detection cup and the third detection cup are both mounted on the roll-over stand, and when the roll-over stand is located at a cleaning position, openings of the second detection cup and the third detection cup are both located right above the cleaning tank, and three cleaning portions are provided in the cleaning tank, and can be respectively inserted into the first detection cup, the second detection cup and the third detection cup.

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