CN219038973U - Slurry pH value detection device - Google Patents

Abstract

The utility model relates to a thick liquids pH valve detection device, use in the pH valve detection field, it includes pH valve detector and sets up on the thick liquids jar and the sampling tube that is linked together with the thick liquids jar, be equipped with the solenoid valve that is used for controlling the sampling tube and opens and shuts on the sampling tube, pH valve detector's detection head wears to establish in the sampling tube, still be equipped with the drive assembly who is used for driving the detection head and goes up and down along the sampling tube on the sampling tube. The technical effect that this application had is: in the process of detecting the pH value of the slurry, the slurry does not need to be sampled manually, so that the safety in the sampling and detecting process is improved.

Description

Slurry pH value detection device

Technical Field

The application relates to the technical field of pH value detection, in particular to a slurry pH value detection device.

Background

In the chemical production process, the pH value of chemical slurry, namely the pH value of the slurry, is one of important indexes for judging the quality of the slurry; therefore, the pH value of the slurry is required to be detected frequently, and the production process of the slurry is regulated in real time according to the detection result so as to improve the production quality of the slurry.

In the detection process of the pH value of the slurry in the related art, the slurry in the slurry tank is usually sampled manually, then the pH value of a slurry sample obtained by sampling is detected by using a pH value detector, and then the production process of the slurry in the slurry tank is correspondingly regulated according to the detection result.

In the process of realizing the application, the inventor finds that at least the following problems exist in the process of detecting the pH value of slurry in the related technology: in the process of manually sampling the slurry, the condition that the slurry is spilled carelessly in the sampling process possibly exists, so that the safety of the sampling detection process is lower.

Disclosure of Invention

In order to help to improve the safety in the sampling detection process, the application provides a thick liquids pH valve detection device, adopts following technical scheme: the utility model provides a thick liquids pH valve detection device, includes pH valve detector and sets up on the thick liquids jar and the sampling tube that is linked together with the thick liquids jar, be equipped with the solenoid valve that is used for controlling the sampling tube and opens and shuts on the sampling tube, pH valve detector's detection head wears to establish in the sampling tube, still be equipped with the drive assembly who is used for driving detection head along the sampling tube lift on the sampling tube.

Through the technical scheme, in the initial state, the electromagnetic valve is in a closed state, so that the sampling tube and the slurry tank are isolated from each other; when the pH value of the slurry in the slurry tank is required to be detected, the electromagnetic valve is opened to enable the sampling pipe to be communicated with the slurry tank, and then the detection head penetrating through the sampling pipe moves downwards into the slurry tank along the sampling pipe under the drive of the driving assembly until the detection head is partially inserted into the slurry, so that the pH value of the slurry in the slurry tank can be detected by the acid detection detector; in the process of detecting the pH value of the slurry, the slurry does not need to be sampled manually, so that the safety in the sampling and detecting process is improved.

In a specific implementation mode, the driving assembly comprises a first bracket and a second bracket which are arranged on the sampling tube, the first bracket is rotationally connected with a fixed pulley, a wire spool is arranged on the second bracket, a cable is wound on the wire spool, one end, far away from the wire spool, of the cable is wound on the fixed pulley and is connected to the detection head, and a motor for driving the wire spool to rotate is further arranged on the second bracket.

Through the technical scheme, the motor can drive the wire spool to rotate when being started, the wire spool can carry out wire winding or paying off on the cable when rotating, and under the reversing effect of the fixed pulleys, the detection head can lift along the sampling tube under the drive of the cable, so that the detection head can automatically descend into the slurry box when the pH value of slurry is required to be detected.

In a specific embodiment, the outer edge of the detection head is provided with a balancing weight.

Through the technical scheme, the arrangement of the balancing weight has the effect of reinforcing the quality of the detection head, so that the detection head can be stably inserted into the slurry when detecting the pH value of the slurry; the possibility that the detection head is difficult to insert into the slurry for detection due to the fact that the slurry is sticky is reduced, and therefore the detection effect of the detection head on the pH value of the slurry is improved.

In a specific embodiment, be equipped with on the sampling tube and be used for carrying out abluent clearance subassembly to the detection head, clearance subassembly is including setting up the water pump on the sampling tube, be equipped with first wash pipe on the interior pipe wall of sampling tube, a plurality of first wash holes have been seted up on the terminal surface of first wash pipe orientation detection head, the water inlet end of water pump communicates to the water source, the play water end of water pump is linked together with first wash pipe.

Through above-mentioned technical scheme, after the pH valve detection of thick liquids is finished and the detection head resets, the solenoid valve is closed and is kept apart sampling tube and thick liquids jar again, then the water pump starts to pump the clear water of water source department to first cleaning tube in, and the clear water can spray the detection head along a plurality of first wash holes on the first cleaning tube afterwards to reached and carried out abluent effect to the detection head automatically.

In a specific implementation manner, a second cleaning pipe is arranged on the inner pipe wall of the sampling pipe, the second cleaning pipe is arranged opposite to the first cleaning pipe, the first cleaning pipe is communicated with the second cleaning pipe through a branch pipe, and a plurality of second cleaning holes are formed in the end face, facing the detection head, of the second cleaning pipe.

Through above-mentioned technical scheme, at the in-process that carries out abluent to the detection head, the clear water in the first cleaning tube can flow to the second along the branch pipe in wasing the tube, then along a plurality of second wash holes spray to the detection head on, first cleaning tube and second cleaning tube can wash to the detection head water spray respectively from the both sides of detection head to the clearance effect of clearance subassembly to the detection head has been improved.

In a specific implementation mode, the sampling tube is further provided with a recovery component for cleaning the waste water in the sampling tube, the recovery component comprises a third support arranged on the sampling tube, an electric push rod is arranged on the third support, the output end of the electric push rod is provided with a waste liquid box, the sampling tube is provided with a hole matched with the waste liquid box, and the waste liquid box is arranged in the hole in a penetrating mode.

Through the technical scheme, before the detection head is cleaned, the electric push rod is started to push the waste liquid box into the sampling tube until the waste liquid box and the tube wall of the sampling tube are mutually abutted; then a water pump is started to flush the detection head, and the waste water generated by flushing can be collected in a waste liquid box, so that the effect of automatically recovering the waste water generated by cleaning is achieved; when the slurry in the slurry tank needs to be detected again, the electric push rod is started again to drive the waste liquid tank to separate from the sampling pipe, so that the detection head after being cleaned can be normally lowered into the slurry tank again to detect the pH value of the slurry.

In a specific embodiment, the outer edge of the waste liquid tank is sleeved with a rubber ring, and the rubber ring abuts against the wall of the opening hole.

Through the above technical scheme, the leakproofness between waste liquid case and the sampling tube has been strengthened in the setting of rubber ring, has reduced the waste liquid case and has collected the in-process of wasing the waste liquid that produces, and partial waste liquid flows to solenoid valve department from the junction gap between waste liquid case and the sampling tube, then flows into the possibility of polluting thick liquids in the thick liquids jar when solenoid valve is opened to the collection effect of waste liquid case to the waste liquid has been promoted.

In a specific embodiment, a drain pipe is communicated with the waste liquid tank; when the waste liquid box is abutted against the pipe wall of the sampling pipe, the drain pipe is positioned on one side of the sampling pipe.

Through above-mentioned technical scheme, the waste liquid in the waste liquid case can in time be discharged the waste liquid case along the drain pipe, has reduced the possibility that waste liquid in the waste liquid case overflows, has reached convenient effect of clear up the waste liquid of retrieving in the waste liquid case.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in the initial state, the electromagnetic valve is in a closed state so that the sampling tube and the slurry tank are isolated from each other; when the pH value of the slurry in the slurry tank is required to be detected, the electromagnetic valve is opened to enable the sampling pipe to be communicated with the slurry tank, and then the detection head penetrating through the sampling pipe moves downwards into the slurry tank along the sampling pipe under the drive of the driving assembly until the detection head is partially inserted into the slurry, so that the pH value of the slurry in the slurry tank can be detected by the acid detection detector; in the process of detecting the pH value of the slurry, the slurry does not need to be sampled manually, so that the safety in the sampling and detecting process is improved;

2. before the detection head is cleaned, the electric push rod is started to push the waste liquid box into the sampling tube until the waste liquid box and the tube wall of the sampling tube are mutually abutted; then a water pump is started to flush the detection head, and the waste water generated by flushing can be collected in a waste liquid box, so that the effect of automatically recovering the waste water generated by cleaning is achieved; when the slurry in the slurry tank needs to be detected again, the electric push rod is started again to drive the waste liquid tank to separate from the sampling pipe, so that the detection head after being cleaned can be normally lowered into the slurry tank again to detect the pH value of the slurry.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

FIG. 2 is a schematic cross-sectional view of an embodiment of the present application for embodying a cleaning assembly.

Reference numerals: 1. a pH value detector; 2. a slurry tank; 3. a sampling tube; 4. an electromagnetic valve; 5. a detection head; 6. a drive assembly; 7. a first bracket; 8. a second bracket; 9. a fixed pulley; 10. a wire spool; 11. a cable; 13. a motor; 14. balancing weight; 15. cleaning the assembly; 16. a water pump; 17. a first cleaning tube; 18. a first cleaning hole; 19. a second cleaning tube; 20. a branch pipe; 21. a second cleaning hole; 22. a recovery assembly; 23. a third bracket; 24. an electric push rod; 25. a waste liquid tank; 26. opening holes; 27. a rubber ring; 28. and (5) a water drain pipe.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-2.

The embodiment of the application discloses a slurry pH value detection device.

As shown in fig. 1 and 2, the slurry ph value detection device comprises a ph value detector 1 and a sampling tube 3 fixedly connected above a slurry tank 2, wherein the sampling tube 3 is arranged along the vertical direction and is communicated with the slurry tank 2; the sampling tube 3 is provided with an electromagnetic valve 4 for controlling the opening and closing of the sampling tube 3; in the initial state, the electromagnetic valve 4 is in a closed state, namely, the sampling tube 3 and the slurry tank 2 are in a mutually isolated state; the detection head 5 of the PH value detector 1 is arranged in the sampling tube 3 in a penetrating way, and a driving component 6 for driving the detection head 5 to lift along the sampling tube 3 is arranged on the sampling tube 3; in the initial state, the detection head 5 is hovered in the sampling tube 3 and is positioned above the electromagnetic valve 4. Therefore, when the pH value of the slurry in the slurry tank 2 is required to be detected, the electromagnetic valve 4 can be controlled to open the sampling tube 3, and then the driving assembly 6 is utilized to drive the detection head 5 to descend into the slurry tank 2 along the sampling tube 3, so that the pH value detector 1 can detect the pH value of the slurry in the slurry tank 2; after the detection is finished, the detection head 5 returns to the initial position under the drive of the driving component 6, and the electromagnetic valve 4 is closed again; the detection head 5 can automatically extend into the slurry tank 2 to detect the pH value, so that the slurry in the slurry tank 2 is not required to be sampled manually in the process of detecting the pH value of the slurry in the slurry tank 2, and the safety of the slurry in the slurry tank 2 during pH value detection is improved.

As shown in fig. 1 and 2, the driving assembly 6 is configured to include a first bracket 7 and a second bracket 8 fixedly connected to the sampling tube 3, a fixed pulley 9 is rotatably connected to the first bracket 7, and the fixed pulley 9 is located right above the tube orifice of the sampling tube 3; the second bracket 8 is fixedly connected with a wire spool 10 and a motor 13 for driving the wire spool 10 to rotate respectively, a cable 11 is wound on the wire spool 10, and one end, far away from the wire spool 10, of the cable 11 bypasses the fixed pulley 9 and is connected to the detection head 5. Therefore, when the motor 13 is started, the wire spool 10 can be driven to rotate to take up or pay off the cable 11, and when the wire spool 10 pays off the cable 11, the detection head 5 can move downwards along the sampling tube 3 under the action of self gravity; when the wire spool 10 is used for winding the cable 11, the detection head 5 can move upwards along the sampling tube 3 under the action of the tensile force of the cable 11, so that the effect of driving the detection head 5 to lift along the sampling tube 3 is achieved.

As shown in fig. 2, considering that the viscosity of the slurry in part of the slurry tank 2 is high, the detection head 5 may be difficult to insert into the slurry to detect the ph by virtue of its own weight; in order to promote the effect of carrying out pH value detection to the thick liquids, at the outer fringe fixedly connected with annular balancing weight 14 that detects head 5, the gravity of detecting head 5 has been increased in the setting of balancing weight 14 for detect head 5 can be stable insert in the thick liquids and carry out pH value detection, thereby further promoted the effect that the thick liquids pH value detected.

As shown in fig. 2, consider the situation that after the detection head 5 detects and resets the ph value of the slurry, part of the slurry adheres to the detection head 5, so that when the detection head 5 detects the ph value of the slurry again, the previous detection of the slurry adhering to the detection head 5 will interfere with the ph value result obtained by the detection again; in order to further improve the detection precision of the pH value of the slurry, a cleaning component 15 for cleaning the detection head 5 is arranged on the sampling tube 3, the cleaning component 15 comprises a water pump 16 fixedly connected to the sampling tube 3, and a first cleaning tube 17 is fixedly connected to the inner tube wall of the sampling tube 3; in the initial state, the first cleaning tube 17 and the detection head 5 are positioned at the same height; a plurality of first cleaning holes 18 are uniformly formed in the end face, facing the detection head 5, of the first cleaning pipe 17, the water inlet end of the water pump 16 is communicated with a water source, and the water outlet end of the water pump 16 is communicated with the first cleaning pipe 17. Therefore, after the pH value of the slurry is detected, that is, when the detection head 5 returns to the initial position, the water pump 16 starts to pump water at the water source into the first cleaning pipe 17, and then clean water can be uniformly sprayed onto the detection head 5 along a plurality of first cleaning holes 18 on the first cleaning pipe 17, so that the slurry adhered to the detection head 5 can be separated from the detection head 5 under the flushing of water flow, the effect of automatically cleaning the detection head 5 is achieved, and the detection precision of the pH value of the slurry is further improved.

As shown in fig. 2, considering that the first cleaning tube 17 is located on the side of the detection head 5, it is difficult to directly wash the side of the detection head 5 facing away from the first cleaning tube 17; in order to further improve the cleaning effect of the cleaning assembly 15 on the detection head 5, a second cleaning pipe 19 is fixedly connected to the pipe wall of the sampling pipe 3, the second cleaning pipe 19 and the first cleaning pipe 17 are positioned at the same height, and the second cleaning pipe 19 and the first cleaning pipe 17 are oppositely arranged; in the initial state, the detection head 5 is positioned between the first cleaning pipe 17 and the second cleaning pipe 19; a plurality of second cleaning holes 21 are uniformly formed in the end face, facing the detection head 5, of the second cleaning pipe 19, and the first cleaning pipe 17 and the second cleaning pipe 19 are communicated through a branch pipe 20. Therefore, when the water pump 16 is started to wash the detection head 5, clean water in the first cleaning pipe 17 can flow into the second cleaning pipe 19 along the branch pipe 20, and then the clean water can be sprayed onto the detection head 5 from two sides of the detection head 5 along the plurality of first cleaning holes 18 and the plurality of second cleaning holes 21, so that the cleaning effect of the cleaning assembly 15 on the detection head 5 is further improved.

As shown in fig. 2, in order to facilitate recovery of the wastewater generated during the cleaning process of the detection head 5, a recovery assembly 22 for cleaning the wastewater generated during the cleaning process of the detection head 5 in the sampling tube 3 is further provided on the sampling tube 3, and the recovery assembly 22 is specifically provided with: the device comprises a third bracket 23 fixedly connected to the sampling tube 3, an electric push rod 24 arranged along the horizontal direction is fixedly connected to the third bracket 23, the output end of the electric push rod 24 is fixedly connected with a waste liquid tank 25, and an opening 26 matched with the waste liquid tank 25 is correspondingly formed in the tube wall of the sampling tube 3; in the initial state, the opening 26 is positioned between the detection head 5 and the electromagnetic valve 4, the waste liquid tank 25 is arranged in the opening 26 in a penetrating way, and the end face of the waste liquid tank 25, which is away from the electric push rod 24, is flush with the inner pipe wall of the waste liquid tank 25. Therefore, when the detection head 5 needs to be cleaned, the electric push rod 24 can be started to push the waste liquid tank 25 to a state of being mutually abutted against the pipe wall of the sampling pipe 3, the waste liquid tank 25 is positioned under the detection head 5, the water pump 16 is started to pump clean water to clean the detection head 5, and waste water generated by cleaning can uniformly fall into the waste liquid tank 25, so that the effect of cleaning and recycling the waste water generated in the cleaning process of the detection head 5 is achieved.

As shown in fig. 2, considering that in the process of cleaning and recovering the waste water generated in the cleaning process of the waste water tank 25, there may be a case where part of the waste water flows from the gap between the waste water tank 25 and the pipe wall of the sampling pipe 3 to between the solenoid valve 4 and the waste water tank 25, and then falls into the slurry tank 2 when the solenoid valve 4 is opened to pollute the slurry; in order to further improve the collection effect of the waste liquid tank 25 on the waste liquid, a rubber ring 27 is fixedly sleeved on the outer edge of the waste liquid tank 25, and the upper end face of the rubber ring 27 is flush with the upper end face of the waste liquid tank 25; in the initial state, the rubber ring 27 abuts against the wall of the opening 26. Therefore, when the waste liquid tank 25 is pushed to a state of being mutually abutted against the wall of the sampling tube 3, the rubber ring 27 is abutted against between the waste liquid tank 25 and the sampling tube 3 to seal a gap between the waste liquid tank 25 and the sampling tube 3, so that waste water generated in the cleaning process of the detection head 5 is difficult to fall between the waste liquid tank 25 and the electromagnetic valve 4, and the collection effect of the waste liquid tank 25 on the waste liquid is further improved.

As shown in fig. 2, in consideration of the fact that the waste liquid collected in the waste liquid tank 25 is inconvenient to clean, a drain pipe 28 is also communicated with the bottom of the waste liquid tank 25; when the waste liquid tank 25 is driven to a state of abutting against the pipe wall of the sampling pipe 3, the drain pipe 28 is located on one side of the sampling pipe 3. Therefore, the waste water collected in the waste liquid tank 25 can be timely discharged out of the waste liquid tank 25 along the drain pipe 28, thereby achieving the effect of conveniently cleaning the waste liquid in the waste liquid tank 25.

The implementation principle of the embodiment of the application is as follows: when the pH value of the slurry in the slurry tank 2 is required to be detected, the electromagnetic valve 4 is opened to enable the sampling tube 3 to be communicated with the slurry tank 2, then the motor 13 is started to drive the wire spool 10 to rotate to carry out paying-off operation on the cable 11, then the detection head 5 hovered in the sampling tube 3 under the tension of the cable 11 can descend into the slurry tank 2 along the sampling tube 3 under the action of self gravity, and then the pH value detector 1 can automatically detect the pH value of the slurry; after the PH value detection is completed, the motor 13 starts to drive the wire spool 10 to turn over to take up the wire 11 until the detection head 5 is restored to the initial position; then the electromagnetic valve 4 is closed again to isolate the sampling tube 3 from the slurry tank 2, the electric push rod 24 starts to push the waste liquid tank 25 to move to a state of abutting against the wall of the sampling tube 3, the water pump 16 starts to pump clean water to the first cleaning tube 17 and the second cleaning tube 19 to flush the detection head 5 for a preset time, after the detection head 5 is flushed, the electric push rod 24 drives the waste liquid tank 25 to return to an initial position, so that the cleaned detection head 5 can detect the slurry in the slurry tank 2 again when needed; the detection head 5 can automatically extend into the slurry tank 2 to detect the pH value of the slurry, so that the slurry is not required to be sampled manually in the process of pH value detection of the slurry, and the safety of the slurry in the process of pH value detection is improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a thick liquids pH valve detection device which characterized in that: including pH value detector (1) and set up on thick liquids jar (2) and with thick liquids jar (2) be linked together sampling tube (3), be equipped with on sampling tube (3) be used for controlling sampling tube (3) solenoid valve (4) that open and shut, the detection head (5) of pH value detector (1) wear to establish in sampling tube (3), still be equipped with on sampling tube (3) and be used for driving detection head (5) along driving assembly (6) that sampling tube (3) goes up and down.

2. The slurry ph detecting device according to claim 1, wherein: the driving assembly (6) comprises a first support (7) and a second support (8) which are arranged on the sampling tube (3), a fixed pulley (9) is rotationally connected to the first support (7), a wire spool (10) is arranged on the second support (8), a cable (11) is wound on the wire spool (10), one end, far away from the wire spool (10), of the cable (11) is wound on the fixed pulley (9) and connected to the detection head (5), and a motor (13) for driving the wire spool (10) to rotate is further arranged on the second support (8).

3. The slurry ph detecting device according to claim 1, wherein: the outer edge of the detection head (5) is provided with a balancing weight (14).

4. The slurry ph detecting device according to claim 1, wherein: be equipped with on the sampling tube (3) and be used for carrying out abluent clearance subassembly (15) to detecting head (5), clearance subassembly (15) are including setting up water pump (16) on sampling tube (3), be equipped with first cleaning tube (17) on the interior pipe wall of sampling tube (3), a plurality of first wash holes (18) have been seted up on the terminal surface of first cleaning tube (17) towards detecting head (5), the water inlet end of water pump (16) communicates to the water source, the play water end of water pump (16) is linked together with first cleaning tube (17).

5. The slurry ph detecting device according to claim 4, wherein: be equipped with second cleaning tube (19) on the interior pipe wall of sampling tube (3), second cleaning tube (19) set up with first cleaning tube (17) relatively, be linked together through branch pipe (20) between first cleaning tube (17) and second cleaning tube (19), a plurality of second wash holes (21) have been seted up on the terminal surface of second cleaning tube (19) orientation detection head (5).

6. The slurry ph detecting device according to claim 4, wherein: the waste water collecting device is characterized in that a recovery assembly (22) for cleaning waste water in the sampling tube (3) is further arranged on the sampling tube (3), the recovery assembly (22) comprises a third support (23) arranged on the sampling tube (3), an electric push rod (24) is arranged on the third support (23), a waste liquid box (25) is arranged at the output end of the electric push rod (24), an opening (26) matched with the waste liquid box (25) is formed in the sampling tube (3), and the waste liquid box (25) is arranged in the opening (26) in a penetrating mode.

7. The slurry ph detecting device according to claim 6, wherein: the outer fringe cover of waste liquid case (25) is equipped with rubber ring (27), rubber ring (27) support tightly on the pore wall of trompil (26).

8. The slurry ph detecting device according to claim 6, wherein: a drain pipe (28) is communicated with the waste liquid tank (25); when the waste liquid tank (25) is abutted against the pipe wall of the sampling pipe (3), the drain pipe (28) is positioned at one side of the sampling pipe (3).

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