CN214334746U

CN214334746U - Novel container device for measuring volatile phenol in water body

Info

Publication number: CN214334746U
Application number: CN202120605329.6U
Authority: CN
Inventors: 林仪
Original assignee: Huizhou Zhongke Huayan Testing Technology Co ltd
Current assignee: Huizhou Zhongke Huayan Testing Technology Co ltd
Priority date: 2021-03-25
Filing date: 2021-03-25
Publication date: 2021-10-01
Anticipated expiration: 2031-03-25

Abstract

The utility model discloses a novel phenol survey of volatilizing in water uses container device, including temperature sensor, device body and stirring leaf, still including the adsorption apparatus who is used for preventing the device from dropping, to temperature control's heating mechanism and make the stirring structure of liquid flash mixed, the outer wall of device body one end is provided with visual window, and one side of visual window is provided with the scale mark, adsorption apparatus constructs the bottom of installing in the device body, heating mechanism installs in the inside bottom of device body. The utility model discloses a rotatory rocking handle makes the puddler rotate, then the stirring leaf rotates and stirs liquid, and through pressing the sleeve pipe downwards, the sleeve pipe drives the puddler and moves down simultaneously, and first reset spring is by extrusion deformation, then rotatory rocking handle makes the stirring leaf stir the liquid of below, makes the mixture more even.

Description

Novel container device for measuring volatile phenol in water body

Technical Field

The utility model relates to a container technical field is used in the survey, specifically is novel phenol for survey volatilizees in water container device.

Background

At present, environmental pollution incidents occur frequently in China, the water polluted by phenol can cause headache, anemia and various nervous system symptoms after being drunk for a long time, volatile phenol in water quality belongs to highly toxic substances and is one of essential measurement items of water environment in China, and phenolic compounds mainly come from waste water in industries such as gas plants, paper mills, synthetic fibers, medicines, chemical engineering, steel and the like, so that the rapid and accurate determination of the content of the volatile phenol in the water quality is very important.

With the continuous installation and use of the novel container device for measuring volatile phenol in water, the following problems are found in the use process:

1. the container device for measuring volatile phenol in some novel water bodies does not have a structure for stirring liquid in the device in the daily use process, so that the volatile phenol can not be quickly mixed.

2. And novel volatile phenol survey in water does not have the structure that makes the device fix in the use with container device, avoids the device to drop.

3. And the novel container device for measuring the volatile phenol in the water body does not have a structure for adjusting the temperature of liquid in the device in the using process, so that the volatile phenol is convenient to volatilize.

Therefore, a novel container device for measuring volatile phenol in water needs to be designed for the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel phenol survey in water is with container device to it does not have stirring, accuse temperature and prevents the problem that falls to provide the phenol survey in the current novel water of volatilizing among the solution above-mentioned background art with container device.

In order to achieve the above object, the utility model provides a following technical scheme: the novel container device for measuring volatile phenol in water comprises a temperature sensor, a device body and stirring blades, and also comprises an adsorption mechanism for preventing the device from falling, a heating mechanism for controlling temperature and a stirring structure for quickly mixing liquid;

the outer wall of one end of the device body is provided with a visible window, one side of the visible window is provided with scale marks, and the adsorption mechanism is arranged at the bottom end of the device body;

the heating mechanism is arranged at the bottom end inside the device body;

the device comprises a device body and is characterized in that a sealing cover is installed at the top end of the device body, a sealing ring is installed on the outer wall below the sealing cover, and a stirring structure is installed at the top end of the sealing cover.

Preferably, the adsorption mechanism comprises a connecting sheet, a lower sucker and an upper sucker, the upper sucker is mounted at the bottom end of the device body, the bottom end of the upper sucker is connected with the connecting sheet, and the lower sucker is mounted at the bottom end of the connecting sheet.

Preferably, the heating mechanism includes heat-conducting plate and heater strip, the bottom in the device body is installed to the heat-conducting plate, the heater strip is installed to the inboard of heat-conducting plate.

Preferably, the installation cover is installed to the inner wall of device body, condenser tube is installed to the inboard of installation cover, condenser tube's one end is provided with the water inlet, condenser tube's the other end is provided with the delivery port.

Preferably, the stirring structure comprises a first return spring, the first return spring is installed on two sides of the top end of the sealing cover, and a sleeve is installed on the top end of the first return spring.

Preferably, a stirring rod is installed on the inner wall of the sleeve, the bottom end of the stirring rod penetrates through the sealing cover and extends to the inside of the device body, and the top end of the stirring rod is connected with a rocking handle.

Preferably, the outer wall of puddler below is even movable hinge to have the stirring leaf, second reset spring is all installed to the inner wall of stirring leaf, temperature sensor is installed to the outer wall of puddler.

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

(1) the lower sucker is pressed on the desktop and is tightly adsorbed on the desktop, the device body is placed on the upper sucker, gas in the upper sucker is exhausted by slight pressing, and then the upper sucker is adsorbed and fixed on the bottom end of the device body, so that the device body is stably installed on the desktop and is prevented from falling and being damaged;

(2) the heat conducting plate, the heating wire, the water inlet, the mounting sleeve, the cooling water pipe, the device body, the water outlet, the temperature sensor and the heat conducting plate are mounted, heat is generated by the working of the heating wire and then conducted to the heat conducting plate, liquid is heated by the heat conducting plate, the temperature of the liquid is detected by the temperature sensor, when the temperature is too high, cooling water enters the cooling water pipe through the water inlet, then flows in the mounting sleeve, cools the liquid, and is discharged through the water outlet, so that the temperature of the liquid in the device body can be conveniently controlled;

(3) through installing rocking handle, first reset spring, sleeve pipe, stirring leaf and puddler, make the puddler rotate through rotatory rocking handle, then the stirring leaf rotates and stirs liquid, through pressing down the sleeve pipe, the sleeve pipe drives the puddler and moves down simultaneously, and first reset spring is by extrusion deformation, then rotatory rocking handle, makes the stirring leaf stir the liquid of below, makes the mixture more even.

Drawings

FIG. 1 is a schematic cross-sectional view of the device of the present invention;

FIG. 2 is a schematic view of the front view structure of the device of the present invention;

FIG. 3 is a schematic view of the bottom structure of the adsorption mechanism of the present invention;

fig. 4 is a schematic view of the structure of the stirring blade of the present invention.

In the figure: 1. an adsorption mechanism; 101. connecting sheets; 102. a lower sucker; 103. a sucker is arranged; 2. a heating mechanism; 201. a heat conducting plate; 202. heating wires; 3. a water outlet; 4. a cooling water pipe; 5. a temperature sensor; 6. a device body; 7. a seal ring; 8. a sealing cover; 9. a first return spring; 10. a sleeve; 11. a rocking handle; 12. a stirring rod; 13. a water inlet; 14. installing a sleeve; 15. a visible window; 16. scale lines; 17. a second return spring; 18. stirring the leaves.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1: referring to fig. 1-4, the novel container device for measuring volatile phenol in water includes a temperature sensor 5, a device body 6, a stirring blade 18, an adsorption mechanism 1 for preventing the device from falling, a heating mechanism 2 for controlling temperature, and a stirring structure for rapidly mixing liquid;

a visual window 15 is arranged on the outer wall of one end of the device body 6, scale marks 16 are arranged on one side of the visual window 15, and the adsorption mechanism 1 is arranged at the bottom end of the device body 6;

the heating mechanism 2 is arranged at the bottom end inside the device body 6;

a sealing cover 8 is arranged at the top end of the device body 6, a sealing ring 7 is arranged on the outer wall below the sealing cover 8, and a stirring structure is arranged at the top end of the sealing cover 8;

referring to fig. 1-4, the novel container device for measuring volatile phenol in water further includes a stirring structure, the stirring structure includes a first return spring 9, the first return spring 9 is installed on two sides of the top end of the sealing cover 8, and a sleeve 10 is installed on the top end of the first return spring 9;

a stirring rod 12 is arranged on the inner wall of the sleeve 10, the bottom end of the stirring rod 12 penetrates through the sealing cover 8 and extends into the device body 6, and the top end of the stirring rod 12 is connected with a rocking handle 11;

stirring blades 18 are movably hinged to the outer wall below the stirring rod 12, second return springs 17 are mounted on the inner walls of the stirring blades 18, a temperature sensor 5 is mounted on the outer wall of the stirring rod 12, and the type of the temperature sensor 5 can be WRM-101;

specifically, as shown in fig. 1, 2 and 4, when the structure is used, the stirring rod 12 is rotated by rotating the rocking handle 11, then the stirring blade 18 rotates to stir the liquid, the sleeve 10 is pressed downwards, the sleeve 10 drives the stirring rod 12 to move downwards at the same time, the first return spring 9 is extruded and deformed, and then the rocking handle 11 is rotated to stir the liquid below by the stirring blade 18, so that the mixing is more uniform.

Example 2: the adsorption mechanism 1 comprises a connecting sheet 101, a lower sucker 102 and an upper sucker 103, wherein the upper sucker 103 is arranged at the bottom end of the device body 6, the connecting sheet 101 is connected with the bottom end of the upper sucker 103, and the lower sucker 102 is arranged at the bottom end of the connecting sheet 101;

specifically, as shown in fig. 1, 2 and 3, when the structure is used, the lower sucker 102 is pressed on the table top, the lower sucker 102 is tightly adsorbed on the table top, the device body 6 is placed on the upper sucker 103, the gas in the upper sucker 103 is discharged by slightly pressing, the upper sucker 103 is adsorbed and fixed on the bottom end of the device body 6, the device body 6 is stably installed on the table top, and the damage caused by falling is avoided.

Example 3: the heating mechanism 2 comprises a heat conducting plate 201 and a heating wire 202, the heat conducting plate 201 is arranged at the bottom end inside the device body 6, and the heating wire 202 is arranged on the inner side of the heat conducting plate 201;

the inner wall of the device body 6 is provided with an installation sleeve 14, the inner side of the installation sleeve 14 is provided with a cooling water pipe 4, one end of the cooling water pipe 4 is provided with a water inlet 13, and the other end of the cooling water pipe 4 is provided with a water outlet 3;

specifically, as shown in fig. 1, when using this structure, through heater strip 202 work production heat, then the heat conduction gives heat-conducting plate 201, heats liquid through heat-conducting plate 201, detects liquid temperature through temperature sensor 5, and when the temperature was too high, the cooling water entered into condenser tube 4 through water inlet 13 in, then flowed in installation cover 14, cooled down liquid, then discharged through delivery port 3, was convenient for control the temperature of liquid in the device body 6.

The working principle is as follows: when the device is used, firstly, liquid to be measured is poured into the device body 6, then the sealing cover 8 is installed on the device body 6, sealing between the device body 6 and the sealing cover 8 is realized through the sealing ring 7, the lower sucker 102 is pressed on a table top, the lower sucker 102 is tightly adsorbed on the table top, then the device body 6 is placed on the upper sucker 103, gas in the upper sucker 103 is discharged by slight pressing, and then the upper sucker 103 is adsorbed and fixed on the bottom end of the device body 6, so that the device body 6 is stably installed on the table top, and falling damage is avoided;

then, when the sealing cover 8 is covered, the stirring rod 12 and the stirring blade 18 simultaneously move downwards towards the inner side of the device body 6, when a bottle neck is formed, the stirring blade 18 is extruded, the second return spring 17 is extruded and deformed, after the stirring rod enters the lower part of the device body 6, the second return spring 17 is reset to enable the stirring blade 18 to return to the original position, the stirring rod 12 is rotated by rotating the rocking handle 11, then the stirring blade 18 rotates to stir liquid, the sleeve 10 is pressed downwards, the sleeve 10 drives the stirring rod 12 to simultaneously move downwards, the first return spring 9 is extruded and deformed, and then the rocking handle 11 is rotated again, so that the stirring blade 18 stirs the liquid below, and the mixing is more uniform;

finally, through heater strip 202 work production heat, then heat conduction gives heat-conducting plate 201, heats liquid through heat-conducting plate 201, detects liquid temperature through temperature sensor 5, and when the temperature was too high, the cooling water entered into condenser tube 4 through water inlet 13 in, then flowed in installation cover 14, cooled down liquid, then discharged through delivery port 3, was convenient for control the temperature of the interior liquid of device body 6.

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

Claims

1. The utility model provides a novel volatile phenol survey in water uses container means, includes temperature sensor (5), device body (6) and stirring leaf (18), its characterized in that: the device also comprises an adsorption mechanism (1) for preventing the device from falling, a heating mechanism (2) for controlling the temperature and a stirring structure for quickly mixing the liquid;

a visual window (15) is arranged on the outer wall of one end of the device body (6), scale marks (16) are arranged on one side of the visual window (15), and the adsorption mechanism (1) is installed at the bottom end of the device body (6);

the heating mechanism (2) is arranged at the bottom end inside the device body (6);

the device is characterized in that a sealing cover (8) is installed at the top end of the device body (6), a sealing ring (7) is installed on the outer wall below the sealing cover (8), and the stirring structure is installed at the top end of the sealing cover (8).

2. The novel container device for measuring volatile phenol in water according to claim 1, characterized in that: the adsorption mechanism (1) comprises a connecting piece (101), a lower sucker (102) and an upper sucker (103), wherein the upper sucker (103) is installed at the bottom end of the device body (6), the bottom end of the upper sucker (103) is connected with the connecting piece (101), and the lower sucker (102) is installed at the bottom end of the connecting piece (101).

3. The novel container device for measuring volatile phenol in water according to claim 1, characterized in that: heating mechanism (2) include heat-conducting plate (201) and heater strip (202), heat-conducting plate (201) are installed in the inside bottom of device body (6), heater strip (202) are installed to the inboard of heat-conducting plate (201).

4. The novel container device for measuring volatile phenol in water according to claim 1, characterized in that: the device is characterized in that an installation sleeve (14) is installed on the inner wall of the device body (6), a cooling water pipe (4) is installed on the inner side of the installation sleeve (14), a water inlet (13) is formed in one end of the cooling water pipe (4), and a water outlet (3) is formed in the other end of the cooling water pipe (4).

5. The novel container device for measuring volatile phenol in water according to claim 1, characterized in that: the stirring structure comprises a first return spring (9), the first return spring (9) is installed on two sides of the top end of the sealing cover (8), and a sleeve (10) is installed on the top end of the first return spring (9).

6. The novel container device for measuring volatile phenol in water according to claim 5, characterized in that: puddler (12) are installed to the inner wall of sleeve pipe (10), the inside that sealed lid (8) extended to device body (6) is run through to the bottom of puddler (12), the top of puddler (12) is connected with rocking handle (11).

7. The novel container device for measuring volatile phenol in water according to claim 6, characterized in that: the stirring device is characterized in that stirring blades (18) are hinged to the outer wall below the stirring rod (12) in an even movable mode, second reset springs (17) are installed on the inner walls of the stirring blades (18), and temperature sensors (5) are installed on the outer wall of the stirring rod (12).