CN211536554U - High-efficient evaporative concentration's device - Google Patents

Abstract

The utility model discloses a device for high-efficiency evaporation concentration, which comprises a high-efficiency evaporation concentration mechanism and a condensation mechanism, wherein one side of a water bath kettle is provided with a rack, a condensed water collecting bottle and a condensation bin are arranged on the rack, the upper end of the condensation bin is provided with a liquid vapor outlet and a liquid vapor conveying pipe, the liquid vapor conveying pipe is communicated with a drying vessel, the upper part of the drying vessel is communicated with a rotary vane vacuum pump, a condensation pipe is arranged in the condensation bin, and the condensation pipe is connected with a water pump and a cold water tank through a condensed water inlet pipe and a condensed; the utility model discloses a setting of cold water groove and water pump has improved cooling rate, has reduced the waste to the running water, and the sliding vane vacuum pump replaces water circulating vacuum pump, has solved in the water circulating vacuum pump use because the problem of warm water in the influence result of use and the water tank that needs to be changed is influenced in the intensification, and the drying ware can carry out self-heating condensation once more and absorb with the liquid vapor of not full condensation in the condensation storehouse, has avoided the liquid vapor of not full condensation to influence the normal use of sliding vane vacuum pump.

Description

High-efficient evaporative concentration's device

Technical Field

The utility model relates to an experimental facilities makes technical field, especially relates to a high-efficient evaporative concentration's device.

Background

The evaporation concentration is that the solvent in the solution is evaporated by heating and the like to increase the concentration of the solution, and is also a part of the separation process of the uniform mixed solution of the solute and the solvent;

at present, the cooling water that laboratory evaporative concentration device used is the running water, can receive the influence in season, the effect of condensation can be a little in winter, the temperature of running water in summer can reach more than 30 degrees, can't carry out the rapid condensation, greatly reduced the evaporative concentration effect of whole device, and water circulating vacuum pump uses the back for a long time, the temperature in the water tank can rise, influence circulating vacuum pump's normal use, thereby influence the effect of whole device evaporative concentration, thereby lead to the evaporative concentration inefficiency, work efficiency has been reduced, and extravagant running water, need the people to watch on duty, therefore, the utility model provides a high-efficient evaporative concentration's device is in order to solve the problem that exists among the prior art.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a high-efficient evaporative concentration's device, adopt cold water tank and water pump to replace the running water for the condenser pipe cooling, the cooling rate has been improved, the waste to the running water has been reduced, the sliding vane vacuum pump replaces water circulation vacuum pump, the problem of changing the interior warm water of water tank when having solved in the water circulation vacuum pump use owing to rising up the result of use that influences the vacuum pump and need be indefinite is solved, the setting of drying dish can carry out the liquid vapor of not complete condensation in the condensation storehouse from the heat condensation once more and absorb, the liquid vapor of having avoided not complete condensation influences the normal use of sliding vane vacuum pump.

In order to solve the problem, the utility model provides a device of high-efficient evaporation concentration, including high-efficient evaporation concentration mechanism and condensation mechanism, high-efficient evaporation concentration mechanism includes water bath, material bottle, rack, removal locating rack, comdenstion water receiving flask, condensation storehouse, liquid vapor export, liquid vapor conveyer pipe, drying ware, dry net bars and rotary vane vacuum pump, be equipped with the material bottle in the water bath, water bath one side is equipped with the rack, be equipped with the removal locating rack on the rack, be equipped with comdenstion water receiving flask and condensation storehouse on the removal locating rack, material bottle intercommunication condensation storehouse, condensation storehouse upper end is equipped with liquid vapor outlet, liquid vapor export passes through liquid vapor conveyer pipe intercommunication drying ware, be equipped with dry net bars in the drying ware, drying ware top intercommunication rotary vane vacuum pump, condensation mechanism includes the condenser pipe, The condensation water inlet pipe is arranged on one side of the condensation bin, the condensation water outlet pipe is arranged on one side of the rack, and the water pump is arranged in the cold water groove.

The further improvement lies in that: the condensation water inlet pipe is arranged below one side of the condensation bin, the condensation water outlet pipe is arranged above one side of the condensation bin, the condensation pipe is spirally arranged in the condensation bin, the condensation water inlet pipe is connected with the cold water tank through a water pump, and the condensation water outlet pipe is directly communicated with the cold water tank.

The further improvement lies in that: three groups of movable positioning frames are arranged on the rack and can move up and down on the rack for positioning.

The further improvement lies in that: the liquid steam conveying pipe is communicated with the lower portion of one side of the drying dish, the drying mesh grid is arranged in the middle of the drying dish, and the spherical top cover is arranged above the drying dish.

The utility model has the advantages that: the utility model discloses a cold water tank and water pump replace the running water to cool down for the condenser pipe, cooling rate has been improved, the waste to the running water has been reduced, the rotary vane vacuum pump replaces water circulation vacuum pump, the problem of warm water in the water tank is changed when needs are indefinite owing to the result of use that the intensification influences the vacuum pump in the water circulation vacuum pump use has been solved, the setting of drying ware can carry out self-heating condensation once more and absorb with the liquid vapor of not complete condensation in the condensation storehouse, the liquid vapor of having avoided not complete condensation influences the normal use of rotary vane vacuum pump.

Drawings

Fig. 1 is a main structure diagram of the present invention.

Wherein: 1. a water bath kettle; 2. a material bottle; 3. a rack; 4. moving the positioning frame; 5. a condensed water collecting bottle; 6. a condensation bin; 7. a liquid vapor outlet; 8. a liquid vapor transport tube; 9. Drying the dish; 10. drying the mesh; 11. a rotary vane vacuum pump; 12. a condenser tube; 13. a condensed water inlet pipe; 14. a condensed water outlet pipe; 15. a cold water tank; 16. and (4) a water pump.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to fig. 1, the embodiment provides a device for efficient evaporation concentration, which comprises an efficient evaporation concentration mechanism and a condensation mechanism, wherein the efficient evaporation concentration mechanism comprises a water bath pot 1, a material bottle 2, a rack 3, a movable positioning rack 4, a condensed water collecting bottle 5, a condensation bin 6, a liquid vapor outlet 7, a liquid vapor conveying pipe 8, a drying dish 9, a drying mesh grid 10 and a rotary vacuum pump 11, the material bottle 2 is arranged in the water bath pot 1, the rack 3 is arranged on one side of the water bath pot 1, the movable positioning rack 4 is arranged on the rack 3, the condensed water collecting bottle 5 and the condensation bin 6 are arranged on the movable positioning rack 4, the material bottle 2 is communicated with the condensation bin 6, the liquid vapor outlet 7 is arranged at the upper end of the condensation bin 6, the liquid vapor outlet 7 is communicated with the drying dish 9 through the liquid vapor conveying pipe 8, the drying mesh grid 10 is arranged in the drying dish 9, the drying ware 9 top intercommunication rotary vane vacuum pump 11, condensation mechanism includes condenser pipe 12, comdenstion water inlet tube 13, comdenstion water outlet pipe 14, cold water groove 15 and water pump 16, be equipped with condenser pipe 12 in the condensation storehouse 6, condensation storehouse 6 one side is equipped with comdenstion water inlet tube 13 and comdenstion water outlet pipe 14, 3 one side of rack is equipped with cold water groove 15, 15 kinds of cold water grooves are equipped with water pump 16, the 11 models of rotary vane vacuum pump are 2 XZ-8.

The condensation water inlet pipe 13 is arranged below one side of the condensation bin 6, the condensation water outlet pipe 14 is arranged above one side of the condensation bin 6, the condensation pipe 12 is spirally arranged in the condensation bin 6, the condensation water inlet pipe 13 is connected with the cold water tank 15 through the water pump 16, and the condensation water outlet pipe 14 is directly communicated with the cold water tank 15.

Be equipped with three groups on the rack 3 and remove locating rack 4, three groups remove locating rack 4 and can reciprocate the location on rack 3, liquid vapor conveyer pipe 8 intercommunication drying dish 9 one side below, dry net bars 10 sets up in 9 middle parts of drying dish, can carry out self-heating condensation once more and absorb to the liquid vapor of not complete condensation, 9 tops of drying dish are spherical top cap.

When the utility model is used, water is added into the water bath pot 1 to 2/3 volume, the material to be concentrated is added into the material bottle 2, and the material bottle 2 is placed in the water bath pot 1 for water bath heating; the water pump 16 is placed in the cold water tank 15, ice water is placed in the cold water tank 15, a power supply of the water pump 16 is started, the water pump 16 is connected with the lower end of the condenser pipe 12 through a condensed water inlet pipe 13, and condensed water is discharged into the cold water tank 15 through a condensed water outlet pipe 14 at the upper end of the condenser pipe 12; the air inlet of the rotary vane vacuum pump 11 is communicated with the upper port of the drying dish 9 through the latex tube, the middle part of the drying dish 9 is provided with a drying mesh grid 10, the lower port of the drying dish 9 is connected with the liquid vapor outlet 7 through the liquid vapor conveying pipe 8, the power supply of the rotary vane vacuum pump 11 is started, the liquid in the material bottle 2 forms vapor, and the vapor is cooled through the condensing pipe 12 and finally reaches the condensed water collecting bottle 5.

The utility model discloses a cold water tank 15 and water pump 16 replace the running water to cool down for condenser pipe 12, the cooling rate has been improved, the waste to the running water has been reduced, sliding vane vacuum pump 11 replaces water circulating vacuum pump, the problem of warm water in the water circulating vacuum pump use owing to the result of use that the intensification influences the vacuum pump with need untimely change water tank has been solved, the setting of drying ware 9 can carry out self-heating condensation once more and absorption with the liquid vapor of the not complete condensation in condensation storehouse 6, the liquid vapor of the not complete condensation has been avoided influencing sliding vane vacuum pump 11's normal use.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a device of high-efficient evaporation concentration which characterized in that: comprises a high-efficiency evaporation concentration mechanism and a condensation mechanism, wherein the high-efficiency evaporation concentration mechanism comprises a water bath pot (1), a material bottle (2), a rack (3), a movable positioning frame (4), a condensed water collecting bottle (5), a condensation bin (6), a liquid vapor outlet (7), a liquid vapor conveying pipe (8), a drying dish (9), a drying net grid (10) and a rotary-vane vacuum pump (11), the material bottle (2) is arranged in the water bath pot (1), the rack (3) is arranged on one side of the water bath pot (1), the movable positioning frame (4) is arranged on the rack (3), the condensed water collecting bottle (5) and the condensation bin (6) are arranged on the movable positioning frame (4), the material bottle (2) is communicated with the condensation bin (6), the liquid vapor outlet (7) is arranged at the upper end of the condensation bin (6), the liquid vapor outlet (7) is communicated with the drying dish (9) through the liquid vapor conveying pipe (8), be equipped with dry net bars (10) in dry ware (9), dry ware (9) top intercommunication sliding vane vacuum pump (11), condensation mechanism includes condenser pipe (12), comdenstion water inlet tube (13), comdenstion water outlet pipe (14), cold water groove (15) and water pump (16), be equipped with condenser pipe (12) in condensation storehouse (6), condensation storehouse (6) one side is equipped with comdenstion water inlet tube (13) and comdenstion water outlet pipe (14), rack (3) one side is equipped with cold water groove (15), cold water groove (15) kind is equipped with water pump (16).

2. An efficient evaporative concentration apparatus as defined in claim 1 wherein: the condensation water inlet pipe (13) is arranged below one side of the condensation bin (6), the condensation water outlet pipe (14) is arranged above one side of the condensation bin (6), the condensation pipe (12) is spirally arranged in the condensation bin (6), the condensation water inlet pipe (13) is connected with the cold water tank (15) through the water pump (16), and the condensation water outlet pipe (14) is directly communicated with the cold water tank (15).

3. An efficient evaporative concentration apparatus as defined in claim 1 wherein: three groups of movable positioning frames (4) are arranged on the rack (3), and the movable positioning frames (4) can move up and down on the rack (3) for positioning.

4. An efficient evaporative concentration apparatus as defined in claim 1 wherein: liquid vapour conveyer pipe (8) intercommunication drying dish (9) one side below, drying net bars (10) set up in drying dish (9) middle part, drying dish (9) top is spherical top cap.

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