CN218012828U - Full-automatic acidizing distillation absorbing device - Google Patents

Abstract

The utility model relates to an acidizing distillation plant technical field, and disclose a full-automatic acidizing distillation absorbing device, including the distillation plant, the distillation plant includes a supporting bench, the retort, distill the export, add sour sealing plug, connect the liquid box, weigh the ware, the absorption bottle, the condenser pipe, the heater, low level travel switch, guide rail, lead screw, drain pipe, pivot, nut support arm, high level travel switch, peristaltic pump, motor, condenser inlet tube, condenser drain pipe, the condensing nozzle, condensate outlet, washing mouth, sliding ring, washing switch, washing liquid entry and controller; the sliding ring is installed on a supporting table top, the cleaning switch is installed inside the supporting table, the cleaning liquid inlet is formed in the bottom end of the sliding ring, and the controller is installed inside the supporting table. The full-automatic acidification distillation absorption device has high degree of automation, does not need to be watched by personnel, can improve the working efficiency, has good consistency of processed samples, can process 2 to 10 water samples in each batch, and is convenient and fast in subsequent cleaning.

Description

Full-automatic acidizing distillation absorbing device

Technical Field

The utility model relates to an acidizing distillation plant technical field specifically is a full-automatic acidizing distillation absorbing device.

Background

Distillation is a thermodynamic separation process that utilizes the difference in boiling points of components in a mixed liquid or liquid-solid system to vaporize low boiling components and recondense to separate the entire component, a combination of both vaporization and condensation unit operations, which has the advantage of not requiring the use of solvents other than system components as compared to other separation means such as extraction, filtration crystallization, etc., thereby ensuring that no new impurities are introduced.

In current distillation experimentation, need the manual work to operate and record data on the side always, trouble very and do not utilize manual operation, so need the distillation plant that degree of automation is high for liberation is artifical, the going on of the experiment of being convenient for more.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a full-automatic acidizing distillation absorbing device possesses advantages such as degree of automation height, follow-up clearance are convenient, has solved above-mentioned technical problem.

(II) technical scheme

In order to achieve the above purpose, the utility model provides a following technical scheme: a full-automatic acidification distillation absorption device comprises a distillation device, wherein the distillation device comprises a support table, a distillation bottle, a distillation outlet, an acid adding sealing plug, a liquid receiving box, a weighing device, an absorption bottle, a condensation pipe, a heater, a low-position travel switch, a guide rail, a screw rod, a drain pipe, a rotating shaft, a nut support arm, a high-position travel switch, a peristaltic pump, a motor, a condenser water inlet pipe, a condenser drain pipe, a condensation nozzle, a condensate outlet, a cleaning nozzle, a slip ring, a cleaning switch, a cleaning liquid inlet and a controller;

the distillation bottle is installed at the top end of a support table, the distillation outlet is arranged at the top end of the distillation bottle, the acidification sealing plug is installed at the top end of the distillation bottle, the weighing device is installed at the top end of the support table, the absorption bottle is installed at the top end of the weighing device, the liquid receiving box is installed at the top end of the absorption bottle, the condensation pipe is installed at the side surface of the support table, the heater is installed at the bottom end of the distillation bottle, the low-position travel switch is installed inside the support table, the guide rail is installed at the side surface of the low-position travel switch, the screw rod is installed at the side surface of the guide rail, the drain pipe is installed at the side surface of the screw rod, the rotating shaft is installed at the top end of the drain pipe, the utility model discloses a condenser, including a screw rod, a condenser drain pipe, a condenser nozzle, a cleaning fluid inlet, a controller, a screw rod, a nut support arm, a high-order travel switch, a peristaltic pump, a motor, a condenser inlet tube, a condenser drain pipe, a condenser nozzle, a condenser outlet, a slip ring top, a sliding ring, a supporting bench top, a cleaning switch, a supporting bench inside, the washing fluid inlet is seted up in the sliding ring bottom, the controller is installed inside a supporting bench.

Preferably, the peristaltic pump is fixedly arranged on the side face of the support platform, the heater is fixedly arranged at the top end of the support platform, and the acid adding sealing plug is fixedly arranged at the top end of the distillation flask.

Through above-mentioned technical scheme, the automatic school of weighing device is zero, and the heater begins to heat the water sample. The peristaltic pump runs in a timing mode, and a certain amount of hydrochloric acid solution is injected into the distillation flask through the acid adding sealing plug.

Preferably, the condenser pipe is fixedly arranged on the side surface of the top end of the support table, and a condenser water inlet pipe and a condenser water outlet pipe are fixedly arranged on the side surface.

Through the technical scheme, the controller is opened to enable tap water (or the cooling circulating water machine) to enter through the water inlet pipe of the condenser and be drained through the water outlet pipe of the condenser, and the temperature of the condenser pipe is reduced.

Preferably, the distillation outlet is formed in the top end of the distillation flask, the condensing nozzle is installed on the top end of the condensing tube, the condensate outlet is formed in the bottom end of the condensing tube, and the bottom end of the condensing tube is fixedly provided with the absorption flask.

Through the technical scheme, after a water sample is boiled, steam enters the condenser pipe from the distillation outlet through the hose through the condensing nozzle, condensed liquid drops into the absorption bottle from the condensate outlet, the weighing device weighs the weight of the entered condensed liquid at any time and converts the weight into ml by the controller, and the heater stops heating when the condensed liquid reaches a set value.

Preferably, low level travel switch installs inside a supporting bench, and top movable mounting has the guide rail, nut support arm fixed mounting is inside a supporting bench, and top fixed mounting has the lead screw, guide rail bottom side fixed mounting has low level travel switch, and top side fixed mounting has high-order travel switch, motor fixed mounting is on the lead screw top, drain pipe fixed mounting is in the lead screw side, and the top side is connected with the pivot.

Through the technical scheme, the motor rotates and drives the screw rod to rotate, and the nut support arm controls the nut support arm to be non-rotatable through the guide rail; the nut support arm is lifted to drive the absorption bottle of the weighing device to lift together, the nut support arm is lifted to a proper position where a condensate outlet enters the absorption bottle, when the nut support arm touches a high-position travel switch to stop, the liquid receiving box is positioned at one side of the absorption bottle at the moment, the absorption bottle is not blocked from lifting or descending, and the nut support arm is lowered to drive the absorption bottle of the weighing device to descend together; the absorption bottle is separated from the condensate outlet, when the nut support arm touches the low-position travel switch to stop, the liquid receiving box rotates about 45 degrees by taking the rotating shaft as the center of a circle through the driving device; the liquid receiving box stops between the absorption bottle and the condensate outlet, and plays a role: prevent that remaining condensate from instiling into the absorption bottle in, guarantee that the condensate weight or the volume in the absorption bottle are accurate, this kind of structure degree of automation is high, need not personnel's guard, can improve work efficiency, handle that the sample uniformity is good, can handle 2 to 10 water samples of every batch.

Preferably, the slip ring is movably arranged at the top end of the support platform, a cleaning nozzle is fixedly arranged at the top end of the support platform, the cleaning switch is fixedly arranged inside the support platform, the cleaning liquid inlet is formed in the bottom end of the slip ring, and the controller is fixedly arranged inside the support platform.

Through the technical scheme, the hose of the distillation outlet is pulled out and inserted into the cleaning nozzle, and the hose drives the limiting slip ring to move downwards. The sliding ring moves downwards to touch the cleaning switch, the controller controls cleaning, the controller opens the valve to enable cleaning liquid sucked by tap water or a water pump to enter the cleaning liquid inlet and flow into the condensing nozzle through the hose, the cleaning liquid flows out of the condensing outlet, tap water or cleaning liquid flowing out of the condensing outlet enters the liquid receiving box below the condensing outlet and is discharged through the drain pipe, and tap water or cleaning liquid can be continuously and intermittently cleaned and the cleaning time can be controlled by the controller, so that subsequent cleaning is convenient.

Compared with the prior art, the utility model provides a full-automatic acidizing distillation absorbing device possesses following beneficial effect:

1. the utility model makes the motor rotate and drives the screw rod to rotate, and the nut support arm is controlled by the guide rail to be non-rotatable; the nut support arm is lifted to drive the absorption bottle of the weighing device to lift together, the nut support arm is lifted to a proper position where a condensate outlet enters the absorption bottle, when the nut support arm touches a high-position travel switch to stop, the liquid receiving box is positioned at one side of the absorption bottle at the moment, the absorption bottle is not blocked from lifting or descending, and the nut support arm is lowered to drive the absorption bottle of the weighing device to descend together; the absorption bottle is separated from the condensate outlet, when the nut support arm touches the low-position travel switch to stop, the liquid receiving box rotates about 45 degrees by taking the rotating shaft as the center of a circle through the driving device; the liquid receiving box stops between the absorption bottle and the condensate outlet, and plays a role: prevent that remaining condensate from instiling into the absorption bottle in, guarantee that the condensate weight or the volume in the absorption bottle are accurate, this kind of structure degree of automation is high, need not personnel's guard, can improve work efficiency, handle that the sample uniformity is good, can handle 2 to 10 water samples in every batch.

2. The utility model discloses an extract the hose of distillation export and insert on the washing mouth, the hose drives this moment has spacing sliding ring to move down. The sliding ring moves downwards to touch the cleaning switch, the controller controls cleaning, the controller opens the valve to enable cleaning liquid sucked by tap water or a water pump to enter the cleaning liquid inlet and flow into the condensing nozzle through the hose, the cleaning liquid flows out of the condensing outlet, tap water or cleaning liquid flowing out of the condensing outlet enters the liquid receiving box below the condensing outlet and is discharged through the drain pipe, and tap water or cleaning liquid can be continuously and intermittently cleaned and the cleaning time can be controlled by the controller, so that subsequent cleaning is convenient.

Drawings

FIG. 1 is a schematic front view of a distillation apparatus of the present invention;

FIG. 2 is a schematic side view of the distillation apparatus of the present invention;

fig. 3 is a schematic view of the structure of the distillation device of the present invention.

Wherein: 1. a distillation apparatus; 2. a support table; 3. a distillation flask; 4. a distillation outlet; 5. adding acid to seal the plug; 6. a liquid receiving box; 7. a weighing device; 8. an absorption bottle; 9. a condenser tube; 10. a heater; 11. a low position travel switch; 12. a guide rail; 13. a screw rod; 14. a drain pipe; 15. a rotating shaft; 16. a nut support arm; 17. a high position travel switch; 18. a peristaltic pump; 19. a motor; 20. a condenser water inlet pipe; 21. a condenser drain pipe; 22. a condensing nozzle; 23. a condensate outlet; 24. cleaning the nozzle; 25. a slip ring; 26. cleaning a switch; 27. a cleaning liquid inlet; 28. and a controller.

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 efforts all belong to the protection scope of the present invention.

Referring to fig. 1-3, a full-automatic acidification distillation absorption device comprises a distillation device 1, wherein the distillation device 1 comprises a support table 2, a distillation bottle 3, a distillation outlet 4, an acid adding sealing plug 5, a liquid receiving box 6, a weighing device 7, an absorption bottle 8, a condensation pipe 9, a heater 10, a low-position travel switch 11, a guide rail 12, a screw rod 13, a drain pipe 14, a rotating shaft 15, a nut support arm 16, a high-position travel switch 17, a peristaltic pump 18, a motor 19, a condenser water inlet pipe 20, a condenser drain pipe 21, a condensation nozzle 22, a condensation liquid outlet 23, a cleaning nozzle 24, a slip ring 25, a cleaning switch 26, a cleaning liquid inlet 27 and a controller 28;

the distillation bottle 3 is arranged at the top end of the support platform 2, the distillation outlet 4 is arranged at the top end of the distillation bottle 3, the acidification sealing plug 5 is arranged at the top end of the distillation bottle 3, the weighing device 7 is arranged at the top end of the support platform 2, the absorption bottle 8 is arranged at the top end of the weighing device 7, the liquid receiving box 6 is arranged at the top end of the absorption bottle 8, the condensation pipe 9 is arranged at the side surface of the support platform 2, the heater 10 is arranged at the bottom end of the distillation bottle 3, the low-level travel switch 11 is arranged inside the support platform 2, the guide rail 12 is arranged at the side surface of the low-level travel switch 11, the screw rod 13 is arranged at the side surface of the guide rail 12, the drain pipe 14 is arranged at the side surface of the screw rod 13, the rotating shaft 15 is arranged at the top end of the drain pipe 14, nut support arm 16 is installed in lead screw 13 bottom, high-order travel switch 17 is installed in guide rail 12 side, peristaltic pump 18 is installed in brace table 2 side, motor 19 is installed on lead screw 13 top, condenser inlet tube 20 is installed in condenser 9 side, condenser drain 21 is installed in condenser 9 side, the condensation mouth 22 is installed on condenser 9 top, condensate outlet 23 is seted up in condenser 9 bottom, cleaning nozzle 24 is installed on sliding ring 25 top, sliding ring 25 is installed on brace table 2 top, cleaning switch 26 is installed inside brace table 2, washing liquid entry 27 is seted up in sliding ring 25 bottom, controller 28 is installed inside brace table 2.

Specifically, peristaltic pump 18 is fixed mounting in a supporting bench 2 side, and heater 10 fixed mounting is in a supporting bench 2 top, and acidification sealing plug 5 is fixed according to 3 tops of retort, and the advantage is, weighing device 7 automatic zero calibration, and heater 10 begins to heat the water sample. Peristaltic pump 18 is operated at a timed rate to inject a volume of hydrochloric acid solution into the distillation flask 3 through acid addition stopper 5.

Specifically, the condenser pipe 9 is fixedly pressed on the side surface of the top end of the support platform 2, and the side surface is fixedly provided with the condenser water inlet pipe 20 and the condenser water outlet pipe 21, so that the controller 28 opens the valve to enable tap water or cooling circulating water to enter through the condenser water inlet pipe 20 and be drained through the condenser water outlet pipe 21, and the temperature of the condenser pipe 9 is reduced.

Concretely, 3 tops on the retort are seted up to distillation outlet 4, condenser nozzle 22 is installed on the 9 tops of condenser pipe, condensate outlet 23 is seted up in the 9 bottoms of condenser pipe, and bottom fixed mounting has absorption bottle 8, the advantage is, after the water sample boiling, steam passes through the hose from distillation outlet 4 and gets into condenser pipe 9 through condenser nozzle 22, condensate liquid drops into in absorption bottle 8 from condensate outlet 23, weigh the condensate liquid weight of entering at any time and convert into ml by controller 28, heater 10 stops to heat when condensate liquid reaches the setting value.

Specifically, the low-position travel switch 11 is installed inside the support table 2, the guide rail 12 is movably installed at the top end of the low-position travel switch 11, the nut support arm 16 is fixedly installed inside the support table 2, the lead screw 13 is fixedly installed at the top end of the nut support arm, the low-position travel switch 11 is fixedly installed on the side face of the bottom end of the guide rail 12, the high-position travel switch 17 is fixedly installed on the side face of the top end of the guide rail, the motor 19 is fixedly installed at the top end of the lead screw 13, the drain pipe 14 is fixedly installed on the side face of the lead screw 13, and the side face of the top end of the drain pipe is connected with the rotating shaft 15, so that the motor 19 rotates and drives the lead screw 13 to rotate, and the nut support arm 16 controls the nut support arm 16 to be non-rotatable through the guide rail 12; the nut support arm 16 is made to rise and drive the weigher 7 to rise together with the absorption bottle 8, the nut support arm 16 rises to a position where the condensate outlet 23 enters the absorption bottle 8, when the nut support arm 16 touches the high-position travel switch 17 to stop, the liquid receiving box 6 is positioned at one side of the absorption bottle 8 at the moment and does not block the rising or falling of the absorption bottle 8, so that the nut support arm 16 falls and drives the weigher 7 to fall together with the absorption bottle 8; the absorption bottle 8 is separated from the condensate outlet 23, when the nut support arm 16 touches the low-position travel switch 11 to stop, the liquid receiving box 6 rotates by about 45 degrees by taking the rotating shaft 15 as the center of a circle through the driving device; the receiving box 6 stops between the absorption bottle 8 and the condensate outlet 23, and the receiving box 6 plays a role: prevent that remaining condensate from dripping into in the absorption bottle 8, guarantee that the condensate weight or the volume in the absorption bottle 8 are accurate, this kind of structure degree of automation is high, need not personnel to guard on duty, can improve work efficiency, handle that the sample uniformity is good, can handle 2 to 10 water samples at every batch.

Specifically, the sliding ring 25 activity is according to (ann) on a supporting bench 2 top, and top fixed mounting has cleaning nozzle 24, and cleaning switch 26 fixed mounting is inside a supporting bench 2, and washing liquid entry 27 sets up in sliding ring 25 bottom, and controller 28 fixed mounting is inside a supporting bench 2, and the advantage is, extracts the hose of distillation outlet 4 and inserts on cleaning nozzle 24, and the hose drives spacing sliding ring 25 downstream this moment. The sliding ring 25 moves downwards to touch the cleaning switch 26, the controller 28 controls cleaning, the controller 28 opens a valve to enable cleaning liquid sucked by tap water or a water pump to enter the cleaning liquid inlet 27, flow into the condensing nozzle 22 through a hose and flow out of the condensing liquid outlet, tap water or cleaning liquid flowing out of the condensing liquid outlet 23 enters the liquid receiving box 6 below the tap water or cleaning liquid and is discharged through the drain pipe 14, and the controller 28 controls tap water or cleaning liquid to be cleaned continuously or intermittently and controls cleaning time, so that subsequent cleaning is convenient and fast.

When the nut support arm 16 is used, the motor 19 rotates and drives the screw rod 13 to rotate, and the nut support arm 16 is controlled by the guide rail 12 to be non-rotatable; the nut support arm 16 is made to rise and drive the weigher 7 to rise together with the absorption bottle 8, the nut support arm 16 rises to a position where the condensate outlet 23 enters the absorption bottle 8, when the nut support arm 16 touches the high-position travel switch 17 to stop, the liquid receiving box 6 is positioned at one side of the absorption bottle 8 at the moment and does not block the rising or falling of the absorption bottle 8, so that the nut support arm 16 falls and drives the weigher 7 to fall together with the absorption bottle 8; the absorption bottle 8 is separated from the condensate outlet 23, when the nut support arm 16 touches the low-position travel switch 11 to stop, the liquid receiving box 6 rotates by about 45 degrees by taking the rotating shaft 15 as the center of a circle through the driving device; the receiving box 6 stops between the absorption bottle 8 and the condensate outlet 23, and the receiving box 6 plays a role: prevent that remaining condensate from dripping into in the absorption bottle 8, guarantee that the condensate weight or the volume in the absorption bottle 8 are accurate, this kind of structure degree of automation is high, need not personnel's guard, can improve work efficiency, it is good to handle the sample uniformity, can handle 2 to 10 water samples at every turn, through extracting the hose of distillation outlet 4 and insert on washing mouth 24, the hose drives spacing sliding ring 25 downstream this moment. The sliding ring 25 moves downwards to touch the cleaning switch 26, the controller 28 controls cleaning, the controller 28 opens the valve to enable tap water or cleaning liquid sucked by the water pump to enter the cleaning liquid inlet 27, flow into the condensing nozzle 22 through the hose and flow out of the condensate outlet, tap water or cleaning liquid flowing out of the condensate outlet 23 enters the liquid receiving box 6 below the tap water or cleaning liquid and is discharged through the drain pipe 14, and the controller 28 controls tap water or cleaning liquid to be cleaned continuously or intermittently and controls cleaning time, so that subsequent cleaning is convenient.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various 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 (6)

1. The utility model provides a full-automatic acidizing distillation absorbing device, includes distillation plant (1), its characterized in that: the distillation device (1) comprises a support table (2), a distillation bottle (3), a distillation outlet (4), an acid adding sealing plug (5), a liquid receiving box (6), a weighing device (7), an absorption bottle (8), a condensation pipe (9), a heater (10), a low-position travel switch (11), a guide rail (12), a screw rod (13), a drain pipe (14), a rotating shaft (15), a nut support arm (16), a high-position travel switch (17), a peristaltic pump (18), a motor (19), a condenser water inlet pipe (20), a condenser drain pipe (21), a condensation nozzle (22), a condensation liquid outlet (23), a cleaning nozzle (24), a slip ring (25), a cleaning switch (26), a cleaning liquid inlet (27) and a controller (28);

the utility model discloses a novel condensation condenser, including retort (3), acidification sealing plug (5), condenser (9), nut support arm (16), low level travel switch (11), condenser (13), lead screw (13) and drain pipe (14), the retort (3) top is installed to retort (3) top, install on retort (3) top acidification sealing plug (5), install on retort (3) top weighing device (7) one side weighing device (7), install on weighing device (7) top absorption bottle (8) top, connect liquid box (6) to install on absorption bottle (8) top, install in brace table (2) side condenser (9), install in brace table (10) bottom, install in retort (3) bottom heater (10), low level travel switch (11) is installed inside brace table (2), install in low level travel switch (11) side guide rail (12), lead screw (13) is installed in guide rail (12) side, install in lead screw (13) side drain pipe (14), pivot (15) is installed in drain pipe (14) top, nut support arm (16) are installed in lead screw (13) bottom, high level travel switch (17) is installed in guide rail (12) side, install in the peristaltic pump (18) side condenser (19), install in the condenser (9) side condenser (21) top condenser (21), the condenser nozzle (22) is installed on the top end of the condenser pipe (9), the condensate outlet (23) is formed in the bottom end of the condenser pipe (9), the cleaning nozzle (24) is installed on the top end of the sliding ring (25), the sliding ring (25) is installed on the top end of the support table (2), the cleaning switch (26) is installed inside the support table (2), the cleaning liquid inlet (27) is formed in the bottom end of the sliding ring (25), and the controller (28) is installed inside the support table (2).

2. The full-automatic acidification distillation absorption device according to claim 1, characterized in that: peristaltic pump (18) fixed mounting is in brace table (2) side, heater (10) fixed mounting is on brace table (2) top, add sour sealing plug (5) fixed mounting on retort (3) top.

3. The full-automatic acidification distillation absorption device according to claim 1, characterized in that: condenser pipe (9) are fixed in brace table (2) top side, and side fixed mounting has condenser inlet tube (20) and condenser drain pipe (21).

4. The full-automatic acidification distillation absorption device according to claim 1, characterized in that: distillation export (4) are seted up on retort (3) top, install on condenser pipe (9) top condensation nozzle (22), condensate export (23) are seted up in condenser pipe (9) bottom, and bottom fixed mounting has absorption bottle (8).

5. The full-automatic acidification distillation absorption device according to claim 1, characterized in that: low position travel switch (11) are installed inside brace table (2), and top movable mounting has guide rail (12), nut support arm (16) fixed mounting is inside brace table (2), and top fixed mounting has lead screw (13), guide rail (12) bottom side fixed mounting has low position travel switch (11), and top side fixed mounting has high position travel switch (17), motor (19) fixed mounting is on lead screw (13) top, drain pipe (14) fixed mounting is in lead screw (13) side, and the top side is connected with pivot (15).

6. The full-automatic acidification distillation absorption device according to claim 1, wherein: the cleaning device is characterized in that the sliding ring (25) is movably arranged at the top end of the support platform (2), the cleaning nozzle (24) is fixedly arranged at the top end, the cleaning switch (26) is fixedly arranged inside the support platform (2), the cleaning liquid inlet (27) is formed in the bottom end of the sliding ring (25), and the controller (28) is fixedly arranged inside the support platform (2).

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