CN220419214U - Cloud point detection equipment for nonionic surfactant - Google Patents

Abstract

The utility model discloses non-ionic surfactant cloud point detection equipment, which belongs to the technical field of cloud point test equipment and comprises an electromechanical control console, wherein a temperature data display screen is embedded and installed on the front surface of the electromechanical control console, a detection box main body is fixedly installed on the upper surface of the electromechanical control console, a magnetic suction box door is rotatably installed at the front end opening of the detection box main body, an exhaust port is formed in the top of an inner cavity of the detection box main body in a penetrating manner, an air extractor is installed at the exhaust port of the upper surface of the detection box main body, the air extractor comprises an air guide pipe fixedly installed at the position of the exhaust port, an air extraction fan is installed at the top end opening of the air guide pipe, a mounting groove is formed in the front surface of the air guide pipe, a carrier box is installed in the mounting groove in an inserting manner, a sealing strip is arranged between the carrier box and the mounting groove, and an air filter is fixedly installed in the carrier box.

Description

Cloud point detection equipment for nonionic surfactant

Technical Field

The utility model belongs to the technical field of cloud point testing equipment, and particularly relates to non-ionic surfactant cloud point detection equipment.

Background

The cloud point is a characteristic constant of nonionic surfactants, which is influenced by the molecular structure of the nonionic surfactant and coexisting materials. The aqueous solution of the nonionic surfactant can generate turbidity along with the temperature rise, the surfactant is converted from complete dissolution to partial dissolution, the temperature at the conversion is the cloud point temperature, and the cloud point is the temperature at which the uniform micelle solution of the nonionic surfactant is subjected to phase separation, and is a very important physical parameter.

In the actual cloud point detection process of the nonionic surfactant, the nonionic surfactant is dissolved in water to be heated and boiled, so that peculiar smell can be generated in the period, and the peculiar smell drifts into the air to influence the physical and mental health of the detection personnel.

Therefore, another non-ionic surfactant cloud point detection device is provided to solve the technical problem that the physical and mental health of the detection personnel is affected by the fact that the peculiar smell drifts into the air.

Disclosure of Invention

Aiming at the technical problem that the physical and mental health of a detector is affected by the drifting of peculiar smell in the detection process of a nonionic surfactant cloud point detector in the prior art, the utility model provides nonionic surfactant cloud point detection equipment. The specific technical scheme is as follows:

the utility model provides a non-ionic surfactant cloud point detection equipment, includes electromechanical control cabinet, the front surface embedding of electromechanical control cabinet installs temperature data display screen, the upper surface fixed mounting of electromechanical control cabinet has the detection case main part, the front end opening part of detection case main part rotates and installs the magnetic suction box door, the inner chamber top of detection case main part has run through and has seted up the gas vent, the upper surface gas vent department of detection case main part installs air extraction device, air extraction device includes the guide duct of fixed mounting in the gas vent position, the top opening part of guide duct installs the air extraction fan, the mounting groove has been seted up to the front surface of guide duct, install the carrier box in the mounting groove interpolation, be provided with the sealing strip between carrier box and the mounting groove, and carrier box internal fixation has air cleaner;

according to the technical scheme, the carrying box is internally and fixedly provided with the plurality of stop rods, the vent holes are reserved between two adjacent stop rods, the carrying box is rotatably provided with the cover plate provided with the vent holes, the front surface of the cover plate is fixedly provided with the stop block, the stop block is fixedly connected with the carrying box through the screw, and the air filter is clamped and fixed between the cover plate and the carrying box;

according to the technical scheme, the water bath table is fixedly arranged in the detection box main body, the plurality of water tanks are formed in the upper surface of the water bath table, the temperature monitor A and the electric control heating wire are respectively arranged in the water tanks, the temperature monitor A and the electric control heating wire are respectively electrically connected with the electric control table, the temperature monitor A is electrically connected with the temperature data display screen, the carrier for carrying the test tube with the detection liquid is arranged in the detection box main body, the plurality of lifting blocks are fixedly arranged at the front end of the carrier, the placing grooves are respectively formed in the upper surfaces of the lifting blocks in a penetrating mode, the electric telescopic rods are fixedly arranged in the detection box main body, the hanging plates are fixedly arranged on the lower surfaces of the electric telescopic rods, the hanging blocks with mounting holes are respectively and fixedly arranged in the front surfaces of the hanging plates in a splicing mode, the temperature monitor B is electrically connected with the electric control table, the temperature monitor B is electrically connected with the temperature data display screen, and the temperature monitor B is located right above the corresponding water tanks;

in the technical scheme, the upper surface of the water bath table is embedded with a plurality of semiconductor refrigeration plates, the semiconductor refrigeration plates are arranged between two adjacent water tanks, and the semiconductor refrigeration plates are electrically connected with the electromechanical control table;

in the technical scheme, the water tank is internally provided with water outlets in a penetrating manner, the water outlets are connected with drain pipes with valves, and the drain ends of the drain pipes with valves are arranged outside the detection box main body;

in the technical scheme, a plurality of the electric control heating wires are respectively and independently electrically connected with the electromechanical control console;

in the technical scheme, the front surface of the magnetic suction box door is provided with an observation window, and transparent glass is fixedly arranged in the observation window;

in the technical scheme, the handle is fixedly arranged on the front surface of the carrying box.

Compared with the prior art, the cloud point detection device for the nonionic surfactant has the beneficial effects that:

according to the utility model, the experiment is carried out on the main body in the detection box, the scattered peculiar smell is blocked in the main body of the detection box, and then the peculiar smell in the main body of the detection box can be discharged out of the main body of the detection box by the air extractor through the air outlet and the air extractor with the air filter, and the air filter can filter harmful substances in the peculiar smell in the discharging process, so that the harm of the gas scattering into the air to the physical and mental health of a detector is reduced.

According to the utility model, the temperature monitor A is arranged in the water tank of the water bath platform, the temperature monitor B which can be lifted is arranged right above the water tank, the temperature of water heating in the water tank can be monitored by using the temperature monitor A, the temperature monitor B is downwards moved and inserted into the test tube cup with the detection liquid, and the temperature after the liquid cooling is detected by using the temperature monitor B, so that the detailed experiment record is facilitated.

Drawings

FIG. 1 is a schematic diagram of a front view of the present utility model;

FIG. 2 is an enlarged view of a partial structure at a in FIG. 1;

FIG. 3 is a schematic cross-sectional view of the present utility model;

FIG. 4 is a schematic diagram of an exploded construction of the present utility model;

fig. 5 is a schematic rear view of the present utility model.

In fig. 1-5, wherein: the temperature sensor comprises a 1-electromechanical control console, a 11-temperature data display screen, a 2-detection box main body, a 21-magnetic refrigerator door, a 3-multi-frequency heating device, a 31-water bath platform, a 311-water tank, a 312-temperature monitor A, a 313-water outlet, a 314-valved water outlet pipe, a 32-electric control heating wire, a 33-semiconductor refrigeration plate, a 4-air extractor, a 41-air guide pipe, a 411-mounting groove, a 42-air extraction fan, a 43-carrying box, a 431-stop lever, a 432-cover plate, a 433-stop block, a 44-air filter, a 5-carrying frame, a 51-lifting block, a 511-placing groove, a 6-electric telescopic rod, a 61-hanging plate, 611-hanging block and a 612-temperature monitor B.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. 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. 1-5, the present utility model provides a technical solution: the utility model provides a nonionic surfactant cloud point detection equipment, including electromechanical control cabinet 1, the front surface embedding of electromechanical control cabinet 1 is installed temperature data display screen 11, the upper surface fixed mounting of electromechanical control cabinet 1 detects case main part 2, the front end opening part rotation of detecting case main part 2 is installed and is inhaled chamber door 21, the inner chamber top of detecting case main part 2 has run through and has been seted up the gas vent, the upper surface gas vent department of detecting case main part 2 is installed air extraction device 4, air extraction device 4 includes air duct 41 of fixed mounting in the gas vent position, air duct 41's top opening part is installed air extraction fan 42, the front surface of air duct 41 has seted up mounting groove 411, install carrier box 43 in the mounting groove 411 interpolation, be provided with the sealing strip (not shown in the figure) between carrier box 43 and the mounting groove 411, and fixedly mounted air cleaner 44 in the carrier box 43;

in the detection experiment process of the cloud point of the nonionic surfactant, the air extraction fan 42 is started after being connected with an external power supply, mist generated by boiling during detection is pumped into the air guide pipe 41 by the air extraction fan 42, and harmful substances in the mist can be intercepted and filtered when the mist passes through the air filter 44, so that the mist is discharged out of the detection box main body 2, the quantity of the harmful substances is reduced after the discharged mist is filtered, and the physical and psychological injuries of the discharged gas to detection personnel are reduced.

When the filtering effect of the air filter 44 becomes worse, as shown in fig. 4, a plurality of stop rods 431 are fixedly installed in the carrying box 43, a vent is reserved between two adjacent stop rods 431, a cover plate 432 with the vent is rotatably installed in the carrying box 43, a stop block 433 is fixedly installed on the front surface of the cover plate 432, the stop block 433 is fixedly connected with the carrying box 43 through a screw, the air filter 44 is clamped and fixed between the cover plate 432 and the carrying box 43, the screw can be unscrewed, and the air filter 44 is taken down for replacement after the cover plate 432 is turned up.

It is worth mentioning that a water bath table 31 is fixedly installed in the detection box main body 2, a plurality of water tanks 311 are formed in the upper surface of the water bath table 31, a temperature monitor A312 and an electric control heating wire 32 are arranged in the water tanks 311, the temperature monitor A312 and the electric control heating wire 32 are electrically connected with the electric control table 1, the temperature monitor A312 is electrically connected with the temperature data display screen 11, a carrier 5 for carrying a detection liquid test tube is placed in the detection box main body 2, a plurality of lifting blocks 51 are fixedly installed at the front end of the carrier 5, a placing groove 511 is formed in the upper surface of each lifting block 51 in a penetrating manner, an electric telescopic rod 6 is fixedly installed in the detection box main body 2, a hanging plate 61 is fixedly installed on the lower surface of each electric telescopic rod 6, a plurality of hanging blocks 611 with installing holes are fixedly installed on the front surface of the hanging plate 61, a temperature monitor B612 is electrically connected with the electric control table 1 in a splicing manner in each hanging block 611, the temperature monitor B612 is electrically connected with the temperature data display screen 11, and the temperature monitor B612 is located right above the corresponding water tanks 311;

when the detection device is actually used, water is firstly added into the water tank 311, then a reagent cup with a nonionic surfactant mixed solution is placed into the placing groove 511 of the carrier 5, the carrier 5 is placed at the periphery of the water bath platform 3, the reagent cup is inserted into the corresponding water tank 311, then the magnetic suction box door 21 is closed, the corresponding electric control heating wire 32 is controlled to start heating from the electromechanical control platform 1, the electric control heating wire 32 heats the water in the water tank 311 to form a water bath, the reagent cup with the water bath degree is heated, so that the nonionic surfactant mixed solution in the cup boils and becomes turbid, the hot water moment in the water bath is monitored by the temperature monitor A312 and displayed in the temperature data display screen 11, the water bath heating is stopped at this moment, the electric telescopic rod 6 is controlled by the electromechanical control platform 1 to stretch to drive the lifting plate 61 and the temperature monitor B612 to move downwards, the temperature monitor B612 is stopped when the temperature monitor B612 is inserted into the reagent cup, the temperature monitor B612 is controlled by the corresponding electric control heating wire 32, the temperature monitor B is displayed in the temperature data display screen 11, the temperature of the nonionic surfactant mixed solution in the graduated reagent cup is recorded as the temperature of the nonionic surfactant mixed solution, the temperature after the temperature of the nonionic surfactant mixed solution is recorded as the temperature of the nonionic surfactant mixed solution, and the temperature is recorded as the cloud point.

In addition, in order to accelerate the temperature of the water bath and the reagent cup in the water tank 311, a plurality of semiconductor refrigerating plates 33 are embedded and mounted on the upper surface of the water bath table 31, the semiconductor refrigerating plates 33 are arranged between two adjacent water tanks 311, and after the semiconductor refrigerating plates 33 are electrically connected with the electromechanical console 1, the electromechanical console 1 can be used for controlling the semiconductor refrigerating plates 33 to refrigerate, thereby reducing the peripheral temperature thereof, further accelerating the temperature of the water bath and the reagent cup in the water tank 311 and improving the efficiency of detection experiments.

In addition, in order to be convenient for discharge the experimental water in the basin 311, avoid its long-time use to produce the peculiar smell, all run through in the basin 311 and set up outlet 313, all be connected with the area valve drain pipe 314 in outlet 313 department, the drain end setting through area valve drain pipe 314 is in the outside of detecting box main part 2, can open the water valve of area valve drain pipe 314, will correspond the water in the basin 311 and discharge to avoid the long-time use of experimental water to produce the peculiar smell.

In order to facilitate the heating experiments with different temperatures by utilizing different water tanks 311, a plurality of electric control heating wires 32 are required to be respectively and independently electrically connected with the electromechanical control console 1, and after the electric connection, the heating temperatures corresponding to the electric control heating wires 32 can be respectively controlled by utilizing the electromechanical control console 1, so that the water baths in different water tanks 311 are conveniently heated to different temperatures, the change condition of the nonionic surfactant mixed solution in the reagent cup is observed at the moment, different experimental results can be obtained, the comparison of the experimental results is facilitated, and the experimental data are more convincing.

In order to observe the change of the nonionic surfactant mixture, it is necessary to provide an observation window on the front surface of the magnet door 21, and to fix a transparent glass in the observation window, so that the experimental condition in the detection box main body 2 can be observed through the observation glass.

In order to facilitate the removal of the carrier box 43 from the mounting slot 411, a handle is fixedly mounted on the front surface of the carrier box 43, and the carrier box 43 can be removed from the mounting slot 411 by tightening the handle, so that the removal of the carrier box 43 from the mounting slot 411 is more labor-saving.

Claims (8)

1. The utility model provides a non-ionic surfactant cloud point check out test set, includes electromechanical control cabinet (1), temperature data display screen (11) are installed in the front surface embedding of electromechanical control cabinet (1), the last fixed surface of electromechanical control cabinet (1) installs detection case main part (2), a serial communication port, detection case main part (2) front end opening part rotates installs magnetic suction box door (21), the gas vent has been seted up in the inner chamber top penetration of detection case main part (2), air extraction device (4) are installed in the upper surface gas vent department of detection case main part (2), air extraction device (4) are including guide duct (41) of fixed mounting in the gas vent position, air extraction fan (42) are installed in the top opening part of guide duct (41), mounting groove (411) have been seted up to the front surface of guide duct (41), install carrier box (43) in the mounting groove (411), be provided with the sealing strip between carrier box (43) and mounting groove (411), and carrier box (43) internal fixation installs air filter (44).

2. The device for detecting the cloud point of the nonionic surfactant according to claim 1, wherein a plurality of stop rods (431) are fixedly installed in the carrier box (43), vent holes are reserved between two adjacent stop rods (431), a cover plate (432) with vent holes is rotatably installed in the carrier box (43), a stop block (433) is fixedly installed on the front surface of the cover plate (432), the stop block (433) is fixedly connected with the carrier box (43) through screws, and the air filter (44) is clamped and fixed between the cover plate (432) and the carrier box (43).

3. The device for detecting the cloud point of the nonionic surfactant according to claim 1, wherein a water bath table (31) is fixedly installed in the detection box main body (2), a plurality of water tanks (311) are formed in the upper surface of the water bath table (31), a temperature monitor A (312) and an electric control heating wire (32) are arranged in each water tank (311), the temperature monitor A (312) and the electric control heating wire (32) are electrically connected with the electric control table (1), and the temperature monitor A (312) is electrically connected with a temperature data display screen (11);

a carrier (5) for carrying test tubes with detection liquid is arranged in the detection box main body (2), a plurality of lifting blocks (51) are fixedly arranged at the front end of the carrier (5), and a placing groove (511) is formed in the upper surface of each lifting block (51) in a penetrating mode;

the detection box is characterized in that an electric telescopic rod (6) is fixedly installed in the detection box body (2), a hanging plate (61) is fixedly installed on the lower surface of the electric telescopic rod (6), a plurality of hanging blocks (611) with installation holes are fixedly installed on the front surface of the hanging plate (61), temperature monitors B (612) are installed in the hanging blocks (611) in an inserted mode, the temperature monitors B (612) are electrically connected with an electromechanical console (1), the temperature monitors B (612) are electrically connected with a temperature data display screen (11), and the temperature monitors B (612) are located right above corresponding water tanks (311).

4. A non-ionic surfactant cloud point detection device as claimed in claim 3, wherein a plurality of semiconductor refrigeration plates (33) are embedded and mounted on the upper surface of the water bath table (31), the semiconductor refrigeration plates (33) are arranged between two adjacent water tanks (311), and the semiconductor refrigeration plates (33) are electrically connected with the electromechanical console (1).

5. A device for detecting the cloud point of a nonionic surfactant according to claim 3, wherein the water tanks (311) are internally provided with water outlets (313) in a penetrating manner, the water outlets (313) are connected with valved water drainage pipes (314), and the water drainage ends of the valved water drainage pipes (314) are arranged outside the detection box main body (2).

6. A non-ionic surfactant cloud point detection device as claimed in claim 3, wherein a plurality of said electrically controlled heater wires (32) are each individually electrically connected to the electromechanical console (1).

7. The device for detecting the cloud point of the nonionic surfactant according to claim 1, wherein an observation window is formed in the front surface of the magnetic refrigerator door (21), and transparent glass is fixedly installed in the observation window.

8. The apparatus of claim 1, wherein a handle is fixedly mounted to a front surface of the cartridge (43).