CN223526340U

CN223526340U - A pH tester for industrial wastewater

Info

Publication number: CN223526340U
Application number: CN202422516332.7U
Authority: CN
Inventors: 葛仲庭; 吴玲; 王彪
Original assignee: Anhui Dongzhi Guangxin Agrochemical Co Ltd
Current assignee: Anhui Dongzhi Guangxin Agrochemical Co Ltd
Priority date: 2024-10-17
Filing date: 2024-10-17
Publication date: 2025-11-07
Anticipated expiration: 2034-10-17

Abstract

The utility model relates to the technical field of waste water ph measurement, and particularly discloses a production waste water ph testing machine which comprises a tester body and a probe, wherein the probe is arranged on a turnover block, both ends of the turnover block are respectively provided with a buckling mechanism, the turnover block is connected with a storage groove in a shell of the tester body through a rotating shaft, the turnover block is in an unfolding state and a storage state, and the probe faces to the lower side when the turnover block is in the unfolding state. According to the utility model, the tester body is clamped on the top plate through the clamping unit, the top plate is stably placed on the table top for detecting wastewater through the supporting frame and the bottom plate, the top plate is connected with the lifting unit for driving the top plate to move up and down, the descending speed is adjustable, the waste water fluctuation is avoided, after the waste water contacts with the probe, the device is supported through the supporting frame and the bottom plate, the probe is in a stable state, the probe is not easy to shake, and compared with the control of hands, the waste water is not easy to shake, and the measurement result is more accurate.

Description

Production wastewater ph testing machine

Technical Field

The utility model belongs to the technical field of waste water ph measurement, and particularly relates to a production waste water ph tester.

Background

At present, when the PH value of the wastewater is measured, a PH value measuring instrument is mostly adopted, and when the PH value is measured, a probe in the PH value measuring instrument is contacted with the wastewater, and a screen on the PH value measuring instrument can display corresponding values.

However, in the process of measuring by using the PH measuring instrument, a certain waiting time is required, during which the probe needs to be ensured to be stationary, if the probe shakes, the whole wastewater can shake, and the measured PH can deviate.

At present, when the probe is measured, a person is required to manually insert the probe into the wastewater, the moving speed cannot be too high, otherwise, the wastewater can be fluctuated, after the probe is contacted with the wastewater, the PH value measuring instrument and the probe are required to be controlled by the person to be stationary for a period of time, and the difficulty of the hand of the person to keep stationary is high, secondly, the probe is arranged on the PH value measuring instrument and is sealed through a cap when not in use, however, the cap and the PH value measuring instrument are separated from each other after being separated, the condition that operators miss the cap, the cap is lost, the probe cannot be protected after the cap is lost, and the probe is in contact with other parts is possible, so the application provides the PH tester for the production wastewater.

Disclosure of utility model

The utility model aims to provide a production wastewater ph testing machine for solving the problems of the background technology.

In order to achieve the above purpose, the utility model provides a technical scheme that the production wastewater ph testing machine comprises a testing instrument body and a probe, wherein the probe is arranged on a turnover block, both ends of the turnover block are respectively provided with a buckling mechanism, the turnover block is connected with a containing groove in a shell of the testing instrument body through a rotating shaft, the turnover block is in an unfolding state and a containing state, the probe faces to the lower side in the unfolding state, the turnover block is in the containing state, the turnover block enters into the containing groove in the testing instrument body, at the moment, the two buckling mechanisms are respectively positioned at both sides of the turnover block, and the buckling mechanisms are propped against the outer wall of the testing instrument body;

The device also comprises a top plate, wherein a clamping unit for clamping and loosening the tester body is arranged on the top plate;

The top plate is connected with the connecting rod through a sector plate;

the connecting rod is connected with the lifting unit through the lifting plate;

The lifting unit is used for driving the lifting plate to move up and down, the lifting unit comprises a track, the inner wall of a lifting groove in the track is attached to the outer wall of the lifting plate, the lifting unit is mounted on the support frame, and the bottom of the support frame is connected with the bottom plate.

Preferably, the clamping unit comprises two symmetrically distributed clamping blocks, one end of each clamping block, facing the lower side, of each clamping block is provided with a chamfering structure, and each clamping block is provided with a chamfering structure.

Preferably, the telescopic block is connected to one end of the clamping block far away from the tester body, the telescopic block is inserted into one of the frames, two frames are arranged, the two frames are connected through a plurality of cross bars, the telescopic block is connected with the compression spring, and the other end of the compression spring is connected with the frame.

Preferably, the upper end of the top plate is provided with a connecting ring, the connecting ring is clamped into the sector plate, the central line of the connecting ring coincides with the central line of the sector plate, the sector plate is connected with the disc, and the top end of the disc is connected with the connecting rod.

Preferably, the connecting rod comprises connectors, connecting sleeves, bent rods and vertical rods, each connecting sleeve is provided with two connectors, one connector is connected with the bent rod through threads, and the other connector is connected with the vertical rod through threads.

Preferably, the support frame is provided with a power pump, the power pump is connected with a drying pipeline, and an outlet of the drying pipeline faces one side of the tester body.

Compared with the prior art, the utility model has the beneficial effects that:

1. According to the utility model, the tester body is clamped on the top plate through the clamping unit, the top plate is stably placed on the table top for detecting wastewater through the supporting frame and the bottom plate, the top plate is connected with the lifting unit for driving the top plate to move up and down, and the lifting unit is provided with the track and the lifting plate, so that the tester body and the probe stably run when moving up and down, the speed of the probe in the process of inserting the probe into the wastewater can be regulated through the lifting unit, the descending speed is adjustable and is gentle, wastewater fluctuation cannot be caused, after the wastewater contacts with the probe, the device is supported through the supporting frame and the bottom plate, the probe is in a stable state and is not easy to shake, and compared with manual control, the wastewater is not easy to shake, and the measurement result is more accurate.

2. The probe in the tester body is arranged on the turnover block, the turnover block and the tester body are connected together through the rotating shaft, the turnover block and the tester body are not separated, the turnover block is in an unfolding state and a storage state in a rotating mode, the turnover block in the storage state is received in the storage groove and is not contacted with other parts, and compared with the existing cap and tester body mutually separated mode, the possibility that the probe cannot be protected due to the fact that the cap is lost is avoided.

3. According to the utility model, the power pump and the drying pipeline are arranged on the support frame, the outlet of the drying pipeline faces one side of the tester body, the probe is inserted into the test vessel, after PH detection is carried out on liquid to be tested, the probe is lifted up to a certain height, and then the direction of the probe is adjusted by the driving motor, so that the probe is aligned to the outlet of the drying pipeline, the drying speed of the probe can be accelerated due to the flow of wind, and the probe can be stored in a dry state.

Drawings

FIG. 1 is a schematic diagram of a machine for testing industrial wastewater ph according to the present utility model.

Fig. 2 is a schematic structural diagram of a ph tester for industrial wastewater in the present utility model.

Fig. 3 is a schematic structural view of the connecting rod in the present utility model.

Fig. 4 is a schematic structural view of the clamping unit in the present utility model.

Fig. 5 is a schematic structural view of the flip block in the unfolded state according to the present utility model.

Fig. 6 is a schematic structural view of the flip block in the storage state according to the present utility model.

The tester comprises a tester body, 101, a probe, 102, a turnover block, 103, a fastening mechanism, 2, a top plate, 3, a clamping unit, 301, a clamping block, 302, a telescopic block, 4, a driving motor, 5, a sector plate, 6, a connecting ring, 7, a connecting rod, 701, a connector, 702, a connecting sleeve, 8, a lifting plate, 9, a lifting unit, 10, a supporting frame, 11, a bottom plate, 12, a test vessel and 13, and a drying pipeline.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, a production wastewater PH testing machine comprises a testing instrument body 1 and a probe 101, wherein the probe 101 is contacted with liquid to be tested when in use, the testing instrument body 1 has a digital display function, the measured PH value can be displayed, the probe 101 is arranged on a turnover block 102, the turnover block 102 is in interference fit with the inner wall of the storage groove, in the rotating process, the turnover block 102 is mutually extruded, friction force can keep static under the action of external force, so when the turnover block 102 rotates to an unfolding state, the turnover block 102 cannot shake, the turnover block 102 is connected with the storage groove in the shell of the testing instrument body 1 through a rotating shaft, the turnover block 102 has an unfolding state and a storage state, the turnover block 102 is in the unfolding state, the probe 101 faces downwards, the turnover block 102 is in the storage state, the turnover block 102 enters the storage groove in the testing instrument body 1, both ends of the turnover block 102 are respectively arranged at two sides of the turnover block 102, and the two buckling mechanisms 103 are abutted against the outer wall of the testing instrument body 1;

Under the storage state, the overturning block 102 is matched with a storage groove in the shell of the tester body 1, the overturning block 102 and the storage groove are mutually folded, a gap is not reserved, the probe 101 is sealed, under the unfolding state, the probe 101 leaks out and faces to the lower side, the probe contacts with liquid to be tested, the PH value of the liquid to be tested is measured, and the probe 101 leaks out when in use, is in the unfolding state together with the overturning block 102, is in the storage state together with the overturning block 102 in the non-use process, and cannot contact with air or other objects.

Further, the tester comprises a top plate 2, a clamping unit 3 for clamping and loosening the tester body 1 is arranged on the top plate 2, the clamping unit 3 comprises two symmetrically distributed clamping blocks 301, a chamfer structure is arranged at one end of each clamping block 301 facing to the lower side, a chamfer structure is arranged on each clamping block 301, the tester body 1 is inserted between the two clamping blocks 301 from bottom to top, the clamping blocks 301 can be pushed to move in a direction away from each other along the chamfer structure, the tester body 1 is extruded between the two clamping blocks 301, and the tester body is fixed at the position of the top plate 2 under the mutual extrusion of the two clamping blocks 301;

specifically, one end of the clamping block 301 far away from the tester body 1 is connected with a telescopic block 302, the telescopic block 302 is inserted into one of the frames, the two frames are connected through a plurality of cross bars, the telescopic block 302 is connected with a compression spring, the other end of the compression spring is connected with the frames, the compression spring is used for extruding the clamping block 301, and the two compression springs are used for enabling the two clamping blocks 301 to move towards one side close to each other.

Further, the top plate 2 is connected with the connecting rod 7 through the sector plate 5, a connecting ring 6 is arranged at the upper end of the top plate 2, the connecting ring 6 is clamped into the sector plate 5, the central line of the connecting ring 6 coincides with the central line of the sector plate 5, the sector plate 5 is connected with the disc, and the top end of the disc is connected with the connecting rod 7;

Specifically, the connecting rod 7 includes connectors 701, connecting sleeves 702, bent rods, and vertical rods, two connectors 701 are disposed on each connecting sleeve 702, one connector 701 is connected with the bent rod through threads, the other connector 701 is connected with the vertical rod through threads, and the connecting rod 7 is connected with the lifting unit 9 through the lifting plate 8. The connecting rod 7 adopts segmentation, combination formula design, and connector 701, adapter sleeve 702, bent rod, montant in it are combined jointly, have formed connecting rod 7, and connecting rod 7 sets up to the shape of crotch, and its upside that is located roof 2, and connecting rod 7 and tester body 1 when descending, even tester body 1 inserts the inside of test household utensils 12, connecting rod 7 still is in the upside of test household utensils 12, can not take place direct collision with between the test household utensils 12.

Further, the lifting unit 9 is used for driving the lifting plate 8 to move up and down, the lifting unit 9 comprises a track, the inner wall of a lifting groove in the track is attached to the outer wall of the lifting plate 8, the lifting unit 9 is installed on the support frame 10, the bottom of the support frame 10 is connected with the bottom plate 11, the support frame 10 is provided with a power pump, the power pump is connected with the drying pipeline 13, the outlet of the drying pipeline 13 faces one side of the tester body 1, the probe 101 is inserted into the test vessel 12 and is lifted up to a certain height after PH detection of liquid to be detected, and then the orientation of the probe 101 is adjusted through the driving motor 4 to enable the probe to be aligned with the outlet of the drying pipeline 13, and wind force blows, so that the drying speed of the probe 101 can be accelerated.

Working principle:

delivering the wastewater generated in the production process into the test vessel 12, and placing the test vessel 12 on a plane;

Then, the turning block 102 in the tester body 1 is turned to be turned to an unfolded state, the turning block 102 in this state is relatively fixed with the inner wall of the receiving groove by friction, and the probe 101 inside the turning block 102 faces to the lower side.

Then, the lifting unit 9 on the supporting frame 10 is started, the lifting plate 8 is driven to move downwards, the probe 101 is contacted with the wastewater, the PH value of the wastewater is displayed on the tester body 1, and then the tester body 1 is lifted to a height which is not contacted with the wastewater, so that the PH detection work of the wastewater can be completed.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A pH tester for industrial wastewater, comprising a tester body (1) and a probe (101), characterized in that the probe (101) is mounted on a flip block (102), and both ends of the flip block (102) are equipped with a snap-fit mechanism (103). The flip block (102) is connected to a storage groove in the outer shell of the tester body (1) via a rotating shaft. The flip block (102) has an unfolded state and a retracted state. When the flip block (102) is in the unfolded state, the probe (101) faces downward. When the flip block (102) is in the retracted state, the flip block (102) enters the storage groove in the tester body (1). At this time, the two snap-fit mechanisms (103) are located on both sides of the flip block (102) and the snap-fit mechanisms (103) abut against the outer wall of the tester body (1).

It also includes a top plate (2), on which a clamping unit (3) for clamping and releasing the tester body (1) is installed;

The top plate (2) is connected to the connecting rod (7) via a sector plate (5);

The connecting rod (7) is connected to the lifting unit (9) via the lifting plate (8);

The lifting unit (9) is used to drive the lifting plate (8) to move up and down. The lifting unit (9) includes a track, the inner wall of the lifting groove in the track is in contact with the outer wall of the lifting plate (8), and the lifting unit (9) is installed on the support frame (10). The bottom of the support frame (10) is connected to the base plate (11).

2. The pH tester for production wastewater according to claim 1, characterized in that the clamping unit (3) includes two symmetrically distributed clamping blocks (301), one end of the clamping block (301) facing downward is provided with a chamfer structure, and the clamping block (301) is provided with a chamfer structure.

3. A production wastewater pH tester according to claim 2, characterized in that the end of the clamping block (301) away from the tester body (1) is connected to a telescopic block (302), the telescopic block (302) is inserted into one of the frames, there are two frames, and the two frames are connected by multiple crossbars, the telescopic block (302) is connected to a compression spring, and the other end of the compression spring is connected to the frame.

4. A production wastewater pH tester according to claim 1, characterized in that a connecting ring (6) is provided at the upper end of the top plate (2), the connecting ring (6) is inserted into the fan-shaped plate (5), the center line of the connecting ring (6) coincides with the center line of the fan-shaped plate (5), the fan-shaped plate (5) is connected to the disk, and the top end of the disk is connected to the connecting rod (7).

5. A production wastewater pH tester according to claim 4, characterized in that the connecting rod (7) includes a connector (701), a connecting sleeve (702), a bent rod, and a vertical rod, and each connecting sleeve (702) is provided with two connectors (701), one of which is threadedly connected to the bent rod, and the other connector (701) is threadedly connected to the vertical rod.

6. A production wastewater pH tester according to claim 5, characterized in that a power pump is installed on the support frame (10), the power pump is connected to the drying pipe (13), and the outlet of the drying pipe (13) faces the tester body (1).