CN201799125U - Multi-medium concentrator - Google Patents

Abstract

The utility model relates to a multi-medium concentrator. The concentrator comprises a spherical tank (5), a first heat medium inlet pipe (7), a first heat medium outlet pipe (9), a second heat medium outlet pipe (11) and a second heat medium inlet pipe (13), wherein an asynchronous motor (1) is fixed on the upper part of the spherical tank (5), and the output shaft of the asynchronous motor (1) is connected with and fixed on a mixing propeller (8); a vacuum pipe (3) and a feed pipe (2) are symmetrically positioned at the left and right of the upper part of the spherical tank (5) respectively; an interlayer (12) is arranged on the lower part of the spherical tank (5); the first heat medium inlet pipe (7) and the second heat medium inlet pipe (13) are symmetrically communicated with the left side and right side of the interlayer (12); and the first heat medium outlet pipe (9) and the second heat medium outlet pipe (11) are symmetrically communicated with the left side and right side of the interlayer (12). Different heat media can be introduced into the concentrator to meet different requirements of effective ingredients in different materials on the temperature, and the concentrating time can be shortened through operation of the mixing propeller so as to effectively reduce the production cost.

Description

The multimedium inspissator

Technical field

The utility model belongs to the bio-pharmaceuticals apparatus field, particularly relates to a kind of multimedium inspissator.

Background technology

Existing inspissator can only concentrate a kind of thermal medium, yet in the pharmaceutical manufacturing process, tends to and need different thermal mediums be concentrated, and so just needs to be equipped with a plurality of inspissators, thereby has increased production cost, has reduced utilization rate of equipment and installations.

Summary of the invention

Technical problem to be solved in the utility model provides a kind of multimedium inspissator, to improve utilization rate of equipment and installations.

The technical scheme that its technical problem that solves the utility model adopts is: a kind of multimedium inspissator is provided, comprise asynchronous machine, feed pipe, vacuum tube, thermometer, spherical tank body, instrument, the first heat medium inlet pipe, paddle, first heat medium goes out pipe, discharging opening, second heat medium goes out pipe, interlayer, the second heat medium inlet pipe, first condenser and second condenser, described asynchronous machine is fixed in spherical tank body top, and the asynchronous machine output shaft is connected and fixed paddle, and vacuum tube and feed pipe symmetry respectively are positioned at the left and right sides, spherical tank body top, and interlayer is installed on spherical tank body bottom, the first heat medium inlet pipe and the second heat medium inlet pipe symmetrical connection are in the interlayer left and right sides, and first heat medium goes out pipe and second heat medium goes out to manage symmetrical connection in the left and right sides, interlayer bottom.

Described thermometer is installed on the spherical tank body left side, and instrument is installed on the first heat medium inlet pipe, and first condenser and second condenser are installed on spherical tank body right side.

Beneficial effect

The utility model is by the unique design to the heat medium pipeline, inspissator can feed different thermal mediums, regulate temperature as required, feed liquid to heterogeneity, and different feed liquid is contained different solvents concentrate work, and the work by paddle, concentration time is shortened, effectively reduce production cost.

Description of drawings

Fig. 1 is the utility model structure chart

The specific embodiment

Below in conjunction with specific embodiment, further set forth the utility model.Should be understood that these embodiment only to be used to the utility model is described and be not used in the restriction scope of the present utility model.Should be understood that in addition those skilled in the art can make various changes or modifications the utility model after the content of having read the utility model instruction, these equivalent form of values fall within the application's appended claims institute restricted portion equally.

Embodiment 1

As shown in Figure 1, a kind of multimedium inspissator, comprise asynchronous machine 1, feed pipe 2, vacuum tube 3, thermometer 4, spherical tank body 5, instrument 6, the first heat medium inlet pipes 7, paddle 8, first heat medium goes out pipe 9, discharging opening 10, the second heat mediums go out pipe 11, interlayer 12, the second heat medium inlet pipe 13, first condenser 14 and second condenser 15, described asynchronous machine 1 are fixed in spherical tank body 5 tops, and asynchronous machine 1 output shaft is connected and fixed paddle 8, vacuum tube 3 and feed pipe 2 symmetry respectively are positioned at the left and right sides, spherical tank body 5 top, interlayer 12 is installed on spherical tank body 5 bottoms, and the first heat medium inlet pipe 7 and the second heat medium inlet pipe, 13 symmetrical connections are in interlayer 12 left and right sides, and first heat medium goes out pipe 9 and second heat medium and goes out pipe 11 symmetrical connections in the left and right sides, interlayer 12 bottom.Thermometer 4 is installed on spherical tank body 5 left sides, and instrument 6 is installed on the first heat medium inlet pipe 7, and first condenser 14 and second condenser 15 are installed on spherical tank body 5 right sides.

Claims (2)

1. multimedium inspissator, comprise asynchronous machine (1), feed pipe (2), vacuum tube (3), thermometer (4), spherical tank body (5), instrument (6), the first heat medium inlet pipe (7), paddle (8), first heat medium goes out pipe (9), discharging opening (10), second heat medium goes out pipe (11), interlayer (12), the second heat medium inlet pipe (13), first condenser (14) and second condenser (15), it is characterized in that: described asynchronous machine (1) is fixed in spherical tank body (5) top, and asynchronous machine (1) output shaft is connected and fixed paddle (8), and vacuum tube (3) and feed pipe (2) symmetry respectively are positioned at spherical tank body (5) left and right sides, top, and interlayer (12) is installed on spherical tank body (5) bottom, the first heat medium inlet pipe (7) and second heat medium inlet pipe (13) symmetrical connection are in interlayer (12) left and right sides, and first heat medium goes out pipe (9) and second heat medium goes out pipe (11) symmetrical connection in the left and right sides, interlayer (12) bottom.

2. a kind of multimedium inspissator according to claim 1, it is characterized in that: described thermometer (4) is installed on spherical tank body (5) left side, instrument (6) is installed on the first heat medium inlet pipe (7), and first condenser (14) and second condenser (15) are installed on spherical tank body (5) right side.

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