CN214252122U - Flip formula quality of water integration detection device - Google Patents

Abstract

The utility model discloses a flip-type water quality integrated detection device, which comprises a display device, a box body, a detection probe and a plate electrode for converting detection signals detected by the detection probe into water quality data; the display device is arranged on the box body in a turnover mode, the electrode plate is arranged in the box body, a pipeline for passing detection water is also arranged in the box body, and the detection probe is arranged on the pipeline; the signal output end of the detection probe is electrically connected with the signal input end of the electrode plate, and the signal output end of the electrode plate is electrically connected with the signal input end of the display device. Compared with the prior art, pipeline and test probe all install in same box, make the utility model discloses a whole volume is less, and test probe is connected with the plate electrode, and circuit connection is simple in the box, and the person of detection only needs installation pipeline and test probe, and installation steps are few, and the installation is comparatively simple, and each quality of water data concentrates the demonstration on display device, and the person of detection can look over quality of water data directly perceived.

Description

Flip formula quality of water integration detection device

Technical Field

The utility model relates to a detection device, more specifically say and relate to a flip formula quality of water integration detection device.

Background

Ultrapure water, also called UP water, means water having a resistivity of 18M Ω cm (25 ℃), which contains almost no impurities other than water molecules, no organic substances such as bacteria, viruses, and chlorine-containing dioxin, and certainly no minerals and trace elements necessary for the human body, that is, almost all atoms except oxygen and hydrogen. Because of its characteristics, ultrapure water is widely used in ultrapure materials, such as semiconductor materials, nano-fine ceramic materials, etc., and also in the fields of medicine, detection, reverse osmosis, etc., it is necessary to detect ultrapure water to determine whether it meets the relevant use standards and requirements.

Most of the existing water quality detecting instruments are integrated instruments, the water quality detecting instruments are large in size, the application range of the water quality detecting instruments is mostly sewage or tap water, and the detection precision and the measuring range of the water quality detecting instruments cannot meet the detection requirement of pure water.

For instruments suitable for ultrapure water to carry out precision and range detection, the instruments are basically resistivity instruments, TOC instruments, dissolved oxygen instruments or other detection instruments which are independently arranged, if the instruments are used, the instruments which are separately arranged need to be connected in series or in parallel, the installation is complicated, data detected by each instrument are separated on the respective instrument, the data are not concentrated together, and the examination is troublesome.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a flip formula quality of water integration detection device, its each test probe all concentrates on in the same box, and the data of detection all concentrates on the display screen, and it is comparatively convenient to look over, and the volume is less, and the installation is simple.

In order to achieve the above purpose, the utility model discloses a solution is:

a flip type water quality integrated detection device comprises a display device, a box body, a detection probe and an electrode plate, wherein the electrode plate is used for converting a detection signal detected by the detection probe into water quality data; the display device is arranged on the box body in a turnover mode, the electrode plate is arranged in the box body, a pipeline for passing detection water is also arranged in the box body, and the detection probe is arranged on the pipeline; the signal output end of the detection probe is electrically connected with the signal input end of the electrode plate, and the signal output end of the electrode plate is electrically connected with the signal input end of the display device.

The display device comprises a display shell, a display screen embedded on the display shell and a display control panel arranged in the display shell; the signal input part of the display screen is electrically connected with the signal output part of the display control panel, the signal output part of the electrode plate is electrically connected with the signal input part of the display control panel, and the signal input part of the display device is the signal input part of the display control panel.

The display screen is located on the inner side or the outer side of the display shell.

The display device is characterized in that a flip shaft is arranged on the display shell, two oppositely-arranged mounting seats are arranged at the upper side of the box body, the two mounting seats are respectively arranged outside two ends of the flip shaft and are respectively provided with jacks arranged along the length direction of the flip shaft, shaft holes are respectively formed in two ends of the flip shaft, the two shaft holes are respectively in one-to-one correspondence with the two jacks, and rotating pins are inserted between the jacks and the shaft holes respectively in correspondence with the jacks.

The display shell is provided with a clamping groove for installing an SD card, and the clamping groove is electrically connected with the signal input end of the display control panel; and/or the display shell is provided with a USB interface, and the USB interface is electrically connected with the display control panel in a bidirectional way.

The box body is provided with a water inlet and a water outlet; the water inlet is connected with the water outlet, and the water outlet is connected with the water inlet; and the signal output end of each detection probe is respectively and electrically connected with the signal input end of the electrode plate.

The water inlet and the water outlet are respectively provided with a water inlet quick plug straight joint and a water outlet quick plug straight joint.

The detection probe and the electromagnetic valve are sequentially arranged on the pipeline along the water flow direction.

The box body is provided with a power connector, the electrode plate is provided with a power interface, and the power interface is electrically connected with the power connector.

The box includes first lid and the second lid that covers each other and close, the second lid is located the upside of first lid, first lid with the second lid is formed with after closing and holds the chamber, the pipeline the electrode plate with test probe all is located hold in the chamber.

After the structure is adopted, the utility model discloses following beneficial effect has:

1. pipeline and test probe all install in same box, make the utility model discloses a whole volume is less to, test probe is connected with the plate electrode, and circuit connection is simple in the box, and the person of examining only needs installation pipeline and test probe, and installation steps are few, and the installation is comparatively simple, and, the utility model discloses a plate electrode converts the detected signal that test probe detected into quality of water data to concentrated demonstration is on display device, makes the person of examining can look over quality of water data directly perceived, looks over the convenience.

2. The display device is arranged in a turnover mode relative to the box body, and the display device is arranged in a turnover mode to be vertical during detection, so that a detector can operate and check conveniently; when the display device is not used, the display device is turned to be arranged face to face with the box body, and the display screen is protected to prevent damage to the display device caused by collision.

3. The setting of a plurality of test probe, the utility model discloses can realize detecting a plurality of parameters of measuring water to, the person of examining can select test probe's type and quantity according to the actual demand, detect in a flexible way.

Drawings

Fig. 1 is a schematic structural view of the display device of the present invention when closed;

fig. 2 is a schematic structural view of the display device according to the present invention when opened;

FIG. 3 is an exploded view of the detecting device of the present invention;

fig. 4 is a circuit connection block diagram of the present invention;

FIG. 5 is a layout diagram of a detecting probe according to the present invention;

FIG. 6 is a first layout of a plurality of inspection probes according to the present invention;

fig. 7 is a second layout diagram of a plurality of detecting probes according to the present invention.

In the figure:

10-a box body; 11-a first cover;

12-a second cover; 20-an electrode plate;

30-a detection probe; 41-display housing;

411 — first housing; 412-a second housing;

42-a display screen; 51-a flip shaft;

52-a mounting seat; 61-water inlet quick plug straight joint;

62-quick plug direct connector for water outlet; 70-electromagnetic valve.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

A flip-type water quality integrated detection device is shown in figures 1-5 and comprises a box body 10, a display device, an electrode plate 20 and a detection probe 30; the display device is installed at the upper side of the case 10 in a manner of being turned over with respect to the case 10, the electrode plate 20 is installed in the case 10, a pipe is installed in the case 10, and the sensing probe 30 is installed on the pipe for the sensing water to enter and exit. In this embodiment, the signal output terminal of each detection probe 30 is electrically connected to the signal input terminal of the electrode plate 20, and the signal output terminal of the electrode plate 20 is electrically connected to the signal input terminal of the display device.

The utility model discloses in, test probe 30 is used for detecting detection water to give plate electrode 20 with the detected signal transmission.

The utility model discloses in, plate electrode 20 is used for converting the detected signal that test probe 30 detected into quality of water data to transmit for display device, wherein, plate electrode 20 is current well-known plate electrode, and the model that for example lefeng science and technology company produced is the plate electrode of RAP 01.

In this embodiment, the detection water is ultrapure water. In addition, the detection water can be sewage, tap water or waste water, and accordingly, the detection probes 30 can select different types of detection probes according to actual detection requirements to detect different water quality data.

For the convenience of description, use the utility model discloses position when normal use is the reference direction to use the human body to be the left side towards the left-hand side of box 10, the right hand side is the right side, and, use one side that display device moves towards box 10 to be inboard, the one side that deviates from box 10 is the outside.

As shown in fig. 1-3, the box body 10 is square, the box body 10 includes a first cover 11 and a second cover 12 that are covered with each other, the second cover 12 is located on the upper side of the first cover 11, and the first cover 11 and the second cover 12 are covered with each other to form a containing cavity together inside, that is, the containing cavity is located in the box body 10, the above-mentioned pipeline, the electrode plate 20 and the detection probe 30 are all located in the containing cavity, and the electrode plate 20 is fixedly mounted on the upper cavity wall of the containing cavity.

Specifically, a water inlet and a water outlet are formed in the left side or the right side of the first cover body 11, in this embodiment, for example, the water inlet and the water outlet are both located on the right side of the first cover body 11, the water inlet and the water outlet are both communicated with the accommodating cavity, a fast water inlet straight connector 61 is installed at the water inlet of the first cover body 11, a fast water outlet straight connector 62 is installed at the water outlet of the first cover body 11, the inlet end of the pipeline is connected to the fast water inlet straight connector 61, and the outlet end of the pipeline is connected to the fast water outlet straight connector 62. Preferably, the pipeline is provided with a detection probe 30 and an electromagnetic valve 70 in sequence along the water flowing direction; when the electromagnetic valve 70 is electrified, the coil of the electromagnetic valve 70 is electrified to open the valve of the electromagnetic valve 70, so that the detection water flows through the detection probe 30 and the electromagnetic valve 70 in sequence; when the solenoid valve 70 is de-energized, the coil of the solenoid valve 70 is de-energized to close the valve of the solenoid valve 70.

In the present invention, there may be one or more detecting probes 30 in the box 10, and the following description will be made on the condition that there are one or more detecting probes 30.

As shown in fig. 3 and 5, when there is one detecting probe 30 in the tank 10, the detecting probe 30 is a conventional organic carbon detecting probe, and the detecting probe 30 has a probe passage, and the water flow passage and the pipeline are communicated with each other. Thus, the utility model discloses during the circular telegram, detect water and in proper order through the valve of the quick plug straight joint 61 of intaking, test probe 30's probe passageway and solenoid valve 70, again through the quick straight joint 62 outflow of play water to this adopts total organic carbon test probe to detect the detection water of flowing through.

As shown in fig. 1 and fig. 6, when there are a plurality of detecting probes 30 in the housing 10, the number of the detecting probes 30 and the number of the transmission ports on the electrode plate 20 are respectively arranged one-to-one, and the detecting probes 30 are connected in series in sequence, in this embodiment, four detecting probes 30 are taken as an example for explanation, in this embodiment, the detecting probes 30 are taken as an example for respectively corresponding to a total organic carbon detecting probe, a resistivity detecting probe, a dissolved oxygen detecting probe and a PH detecting probe, in the water flow direction, the total organic carbon detecting probe and the resistivity detecting probe, the dissolved oxygen detection probe, the PH detection probe, and the solenoid valve 70 are sequentially communicated through water pipes, and the detection water flows through the total organic carbon detection probe, the resistivity detection probe, the dissolved oxygen detection probe, and the PH detection probe in this order, which is not limited to the above order, in accordance with actual conditions. Thus, the utility model discloses during the circular telegram, detect water through the valve of the fast straight joint of inserting 61 of intaking, total organic carbon test probe, resistivity test probe, dissolved oxygen test probe, PH test probe and solenoid valve 70 in proper order, connect straight joint 62 to flow out through going out water soon again to this makes each test probe 30 detect the detection water of flowing through. It should be noted that the type and number of the detecting probes 30 can be set according to the parameters to be detected of the actual detected object, and are not limited to the above-mentioned type of detecting probes.

In addition, in the present embodiment, the detection probes 30 may be arranged side by side. For example, as shown in fig. 7, the fast-plug direct water inlet connector 61 is divided into three branches, one branch is connected to the water inlet end of the electromagnetic valve 70 through the total organic carbon detection probe, the second branch is connected to the water inlet end of the electromagnetic valve 70 through the dissolved oxygen detection probe, and the third branch is connected to the water inlet end of the electromagnetic valve 70 through the PH detection probe; for another example, the total organic carbon detection probe is respectively connected with the resistivity detection probe, the dissolved oxygen detection probe and the PH detection probe through water pipes, the resistivity detection probe is connected with the dissolved oxygen detection probe through a water pipe, the total organic carbon detection probe is connected with the water inlet quick plug straight joint 61, and the dissolved oxygen detection probe is connected with the water outlet quick plug straight joint 62 through an electromagnetic valve. In addition, there are various parallel structures of the detection probes 30, which are not listed here.

As shown in fig. 1-4, the display device is located on the upper side of the box body 10, the cross section of the display device is square, and the display device comprises a display housing 41, a display screen 42 and a display control panel 43, the display control panel 43 is installed in the display housing 41, and the display screen 42 is embedded in the middle of the outer side surface of the display housing 41; the signal output end of the display control board 43 is electrically connected to the signal input end of the display screen 42, the signal output end of the electrode plate 20 is electrically connected to the signal input end of the display control board 43, and the signal input end of the display device is the signal input end of the display control board 43.

In this embodiment, the display screen 42 is a commercially available touch display screen, and the display control board 43 associated with the display screen 42 is also a commercially available control board, so that the description thereof is omitted.

Expandedly, the display housing 41 includes first shell 411 and second shell 412, and display screen 42, first shell 411 and second shell 412 are arranged from top to bottom in proper order, and first shell 412 is installed in the outside department of second shell 412, and first shell 411 and second shell 412 form the open thing chamber of putting jointly, and display control panel 43 installs in putting the thing chamber, and display screen 42 is fixed mounting in the outside department of first shell 412, and the lateral surface of display screen 42 and the lateral surface of first shell 412 are flush mutually, and the display screen 42 is located the lateral surface department of display housing 41. When the utility model is used, the display device is turned to be vertically arranged relative to the box body 10, so that the display screen 42 is vertically arranged, and the operation and the checking of a detector are convenient; when the utility model discloses when idle, display device overturns to be the level for box 10 and arranges to display screen 42 to reduce the collision to the display screen.

Preferably, to further ensure that the display screen 42 is not easily bumped or scratched, the display screen 42 may be embedded at the inner side surface of the display housing 41, that is, the display screen 42, the first housing 411 and the second housing 412 are arranged in sequence from bottom to top. When the utility model is used, the display device is turned to be vertically arranged, so that the detector can conveniently operate and check through the display screen 42; when the utility model discloses when idle, display device overturns to the side face-to-face arrangement that goes up of its display screen 42 and box 10 to hide display screen 42.

Preferably, a card slot 4121 is formed at the right side of the second housing 412, the card slot 4121 is electrically connected to the input terminal of the display control board 43, and the card slot 4121 is used for the SD card to be inserted therein for upgrading the program on the display control board 43 by the SD card.

Preferably, a USB interface is disposed at the right side of the second housing 412, and the USB interface is electrically connected to the display control board 43 in a bidirectional manner, so as to import or export data through the USB interface.

The overturning structure between the display device and the box body 10 is specifically as follows: a flip shaft 50 is disposed at a rear side edge of the bottom surface of the second housing 412, the flip shaft 51 is arranged along the left-right direction, and the flip shaft 51 and the display housing 41 are an integrally formed structure; the upper side of the second cover 12 is provided with two mounting seats 52 corresponding to the two ends of the flip shaft 51, the two mounting seats 52 are arranged oppositely, and the two mounting seats 52 are respectively arranged outside the two ends of the flip shaft 51; in addition, the two mounting seats 52 are respectively provided with insertion holes arranged along the length direction of the flip shaft 51, two ends of the flip shaft 50 are respectively provided with shaft holes, the two insertion holes and the two shaft holes respectively correspond to each other one by one, and a rotation pin is inserted between the two insertion holes and the corresponding shaft holes, so that the display device can be turned over by using the two rotation pins as base points. In addition, the flip structure of the display device and the case 10 may be other conventional structures in the mechanical field, such as a flip structure of a notebook computer.

The utility model discloses in, the left side or the right side department of second lid 12 install power connection, have power source on the foretell plate electrode 20, and this power source passes through power cord connection power connection to supply power for plate electrode 20 through power connection, and provide working power supply for solenoid valve 70, each test probe 30 and display device.

Preferably, the inside of the flip shaft 50 has a hollow cavity, the signal output terminal of the electrode plate and the signal input terminal of the display control panel 43 are connected through a connection wire, and the power terminal of the electrode plate 20 and the power terminal of the display control panel 43 are connected through a power line, and the connection wire and the power line both sequentially pass through the hollow cavity of the flip shaft 50, the second housing 411 and the second housing 412, so as to optimally arrange the connection wire and the power line and avoid the disorder of the connection wire and the power line.

The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made within the scope of the claims of the present invention should belong to the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a flip formula quality of water integration detection device which characterized in that: the device comprises a display device, a box body, a detection probe and an electrode plate, wherein the electrode plate is used for converting a detection signal detected by the detection probe into water quality data; the display device is arranged on the box body in a turnover mode, the electrode plate is arranged in the box body, a pipeline through which detection water passes is also arranged in the box body, and the detection probe is arranged on the pipeline; the signal output end of the detection probe is electrically connected with the signal input end of the electrode plate, and the signal output end of the electrode plate is electrically connected with the signal input end of the display device.

2. The flip type water quality integrated detection device as claimed in claim 1, wherein: the display device comprises a display shell, a display screen embedded on the display shell and a display control panel arranged in the display shell; the signal input part of the display screen is electrically connected with the signal output part of the display control panel, the signal output part of the electrode plate is electrically connected with the signal input part of the display control panel, and the signal input part of the display device is the signal input part of the display control panel.

3. The flip type water quality integrated detection device as claimed in claim 2, wherein: the display screen is located on the inner side or the outer side of the display shell.

4. The flip type water quality integrated detection device as claimed in claim 2, wherein: the display device is characterized in that a flip shaft is arranged on the display shell, two oppositely-arranged mounting seats are arranged at the upper side of the box body, the two mounting seats are respectively arranged outside two ends of the flip shaft and are respectively provided with jacks arranged along the length direction of the flip shaft, shaft holes are respectively formed in two ends of the flip shaft, the two shaft holes are respectively in one-to-one correspondence with the two jacks, and rotating pins are inserted between the jacks and the shaft holes respectively in correspondence with the jacks.

5. The flip type water quality integrated detection device as claimed in claim 2, 3 or 4, wherein: the display shell is provided with a clamping groove for installing an SD card, and the clamping groove is electrically connected with the signal input end of the display control panel; and/or the display shell is provided with a USB interface, and the USB interface is electrically connected with the display control panel in a bidirectional way.

6. The flip type water quality integrated detection device as claimed in any one of claims 1 to 4, wherein: the box body is provided with a water inlet and a water outlet; the water inlet is connected with the water outlet, and the water outlet is connected with the water inlet; and the signal output end of each detection probe is respectively and electrically connected with the signal input end of the electrode plate.

7. The flip type water quality integrated detection device as claimed in claim 6, wherein: the water inlet and the water outlet are respectively provided with a water inlet quick plug straight joint and a water outlet quick plug straight joint.

8. The flip type water quality integrated detection device as claimed in claim 6, wherein: and the pipeline is sequentially provided with a detection probe and an electromagnetic valve along the water flow direction.

9. The flip type water quality integrated detection device as claimed in claim 6, wherein: the box body is provided with a power connector, the electrode plate is provided with a power interface, and the power interface is electrically connected with the power connector.

10. The flip type water quality integrated detection device as claimed in claim 6, wherein: the box includes first lid and the second lid that covers each other and close, the second lid is located the upside of first lid, first lid with the second lid is formed with after closing and holds the chamber, the pipeline the electrode plate with test probe all is located hold in the chamber.

Images