CN205351981U - Bipyramid gyration vacuum drying machine subassembly - Google Patents

Abstract

The utility model discloses a bipyramid gyration vacuum drying machine subassembly, include: the desiccator main part, a machine support. Drive mechanism, it is rotatory that drive mechanism drives the cavity driving shaft, and then drive desiccator main part is rolled, liquid storage pot, liquid storage pot are used for holding the thermal medium to heat the thermal medium, the pump body, under the effect of the pump body, the thermal medium enters the cavity via the cavity driven shaft and heats the desiccator main part, and the heating finishes after flow back to the liquid storage pot by the cavity driven shaft, inside vacuum tube, vacuum tube passed through cavity driving shaft intercommunication desiccator main part, the exit that the vacuum tube is located the desiccator main part inside was equipped with the filter core, filter, filter one end pass through the pipeline and are connected with the vacuum tube, condenser, condenser one end pass through the pipeline and are connected with the vacuum tube, the buffer tank, the one end of buffer tank is passed through the pipeline and is connected with the other end of condenser, vacuum pump, vacuum pump pass through the pipeline and are connected with the other end of buffer tank.

Description

A kind of double conic rotary vacuum dryer assembly

Technical field

This utility model relates to medical material technical field of drying, particularly relates to a kind of double conic rotary vacuum dryer assembly.

Background technology

Double conic rotary vacuum dryer is one of equipment that field of medicaments is conventional, the principle of its work is: in bipyramid tank under vacuum conditions, thermal medium is passed in cavity, the wet stock that is dried making thermal medium and bipyramid top tank structure carries out heat exchange, wet stock absorbs heat and transpiring moisture, by vacuum pump, transpiring moisture is pumped through vacuum tube again, thus reaching the purpose of dry materials.

Existing double conic rotary vacuum dryer is generally single sale, is combined with miscellaneous part in use using, and therefore can deposit, when combination, the problem structurally cannot mated.It addition, after the thermal medium that passes in cavity of double conic rotary vacuum dryer, it usually needs return duct is set through bipyramid tank interior, causes tank interior structure not compact, and then have influence on dry efficiency.

Utility model content

In view of this, this utility model provides a kind of double conic rotary vacuum dryer assembly.

The technological means that this utility model adopts is as follows: a kind of double conic rotary vacuum dryer assembly, including:

Drying machine main body, it is cylindrical in the middle of described drying machine main body, two ends are cone, two conical top are provided with material mouth and discharge outlet, and described drying machine main body is divided between shell, inner bag and described shell and inner bag the cavity of composition, and described cavity is available for medium passing mistake, described cavity is provided with drainage plate, described drainage plate is the circular arc distribution that middle high both sides are low, is filled with glass cotton heat-insulation layer in described cavity, and described drying machine main body both sides connect hollow driving shaft and hollow driven shaft.

Frame, described frame is two, and top is provided with bearing block, and described hollow driving shaft and hollow driven shaft are connected with two bearing blocks respectively.

Drive mechanism, described drive mechanism drives described hollow driving shaft to rotate, and then drives the rolling of drying machine main body.

Fluid reservoir, described fluid reservoir is used for holding thermal medium, and thermal medium is heated.

The pump housing, described pump housing one end is connected with described fluid reservoir by pipeline, the other end is connected with described hollow driven shaft by pipeline, under the effect of the described pump housing, thermal medium enters described cavity via described hollow driven shaft and described drying machine main body is heated, and is back to described fluid reservoir via described hollow driven shaft after heating.

Vacuum tube, described vacuum tube connects described drying machine body interior by described hollow driving shaft, and described vacuum tube is positioned at the exit of described drying machine body interior and is provided with filter element.

Filter, described filter one end is connected with described vacuum tube by pipeline.

Condenser, described condenser one end is connected with described vacuum tube by pipeline.

Surge tank, one end of described surge tank is connected with the other end of described condenser by pipeline.

Vacuum pump, described vacuum pump is connected with the other end of described surge tank by pipeline.

Further, described hollow driving shaft stretches in described drying machine main body, and the hollow axle shaft section in described drying machine main body is arranged with spiral.

Further, described drive mechanism includes motor, belt, worm-gear speed reducer and chain, and described motor is through worm-gear speed reducer described in described belt drive, and described worm-gear speed reducer rotates through hollow driving shaft described in described chain-driving.

Further, described vacuum pump and the tank connected pipeline of described buffering are provided with Pressure gauge, and described fluid reservoir is provided with Pressure gauge.

Adopt a kind of double conic rotary vacuum dryer assembly provided by the utility model, it is provided with drainage plate by described cavity, thermal medium flows along drainage plate, thermal medium is made to be evenly distributed in outside the inner bag of drying machine main body, ensure the uniformity of drying machine main body heating, glass cotton heat-insulation layer it is filled with in described cavity, good heat preservation performance, inner bag throws in material, material stirs while obtain heat by wall of inner container, rotary drying under vacuum, accelerate rate of drying, avoid material phenomenon of surface yellowing when dry, substantially reduce the dry materials time, improve labor productivity, decrease material simultaneously in dry run, be subject to the pollution of environment, the material that is particularly well-suited to have oxidized danger and heat sensitive material dry.Fluid reservoir of the present utility model, the waste heat of thermal medium can be recycled; there is the effect of province's energy; vacuum tube, filter, condenser, surge tank are set; vacuum pump integration connects; compact conformation; ensure that this utility model can not shut down continuous operation, there is good heat transfer effect, improve work efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of double conic rotary vacuum dryer assembly；

Fig. 2 is the structural representation of drying machine main body；

Fig. 3 is the structural representation of drainage plate in drying machine main body.

Detailed description of the invention

Below in conjunction with accompanying drawing, principle of the present utility model and feature being described, example is served only for explaining this utility model, is not intended to limit scope of the present utility model.

As it is shown in figure 1, a kind of double conic rotary vacuum dryer assembly, including: drying machine main body 1, frame 2, drive mechanism 3, fluid reservoir 4, the pump housing 5, vacuum tube 6, filter 7, condenser 8, surge tank 9, vacuum pump 10.

As shown in Figure 2, drying machine main body 1, is cylindrical in the middle of drying machine main body 1, and two ends are cone, two conical top are provided with material mouth 11 and discharge outlet 12, drying machine main body 1 is divided between shell 13, inner bag 14 and shell 13 and inner bag 14 cavity 15 of composition, and inner bag 14 adopts stainless steel material to make, and both passes through polishing, so that rinsing, meet the requirement that supplies aseptic dries, be beneficial to the conduction of heat, improve rate of drying.Cavity 15 is available for medium passing mistake, as shown in Figure 3, cavity 15 is provided with drainage plate 16, the circular arc distribution that drainage plate 16 is low in middle high both sides, thermal medium flows along drainage plate 16, thermal medium is made to be evenly distributed in inner bag 14 outside of drying machine main body 1, it is ensured that the uniformity of drying machine main body 1 heating.Being filled with glass cotton heat-insulation layer 17 in cavity 15, drying machine main body 1 both sides connect hollow driving shaft 21 and hollow driven shaft 22.The good heat preservation performance of glass cotton heat-insulation layer 17, inner bag 14 throws in material, material stirs while obtain heat by inner bag 14 wall, rotary drying under vacuum, accelerates rate of drying, it is to avoid material phenomenon of surface yellowing when dry, substantially reduce the dry materials time, improve labor productivity, decrease material simultaneously in dry run, be subject to the pollution of environment, the material that is particularly well-suited to have oxidized danger and heat sensitive material dry.

Frame 2, frame 2 is two, and top is provided with bearing block (not shown), hollow driving shaft 21 and hollow driven shaft 22 and is connected with two bearing blocks respectively.Frame 2 is welded by firm type and outer shrouding, after drying machine main body 1 is connected with hollow driving shaft 21 and hollow driven shaft 22, two double row self aligning spherical roller bearings is bearing in frame 2.

Drive mechanism 3, drive mechanism 3 drives hollow driving shaft 21 to rotate, and then drives drying machine main body 1 to roll.In the present embodiment, drive mechanism 3 includes motor 31, belt 32, worm-gear speed reducer 33 and chain 34, and motor 31 drives worm-gear speed reducer 33 through belt 32, and worm-gear speed reducer 33 drives hollow driving shaft 21 to rotate through chain 34.Drying machine main body 1 is driven to make low speed rotation around horizontal axis by Chain conveyer, it is ensured that the dry uniformity.

Fluid reservoir 4, fluid reservoir 4 is used for holding thermal medium, and thermal medium is heated, and the waste heat of thermal medium can be recycled, save the energy.

The pump housing 5, the pump housing 5 one end is connected with fluid reservoir 4 by pipeline, and the other end is connected with hollow driven shaft 22 by pipeline, under the effect of the pump housing 5, thermal medium enters cavity 15 via hollow driven shaft 22 and drying machine main body 1 is heated, and is back to fluid reservoir 4 via hollow driven shaft 22 after heating；

Vacuum tube 6, it is internal that vacuum tube 6 connects drying machine main body 1 by hollow driving shaft 21, and vacuum tube 6 is positioned at the exit within drying machine main body 1 and is provided with filter element 61.Vacuum tube 6 is for extracting the solvent gas of evaporation in drying machine main body 1, and material is rustless steel.

Filter 7, filter 7 one end is connected with vacuum tube 6 by pipeline, should be coated with industry polyester flannel, it is prevented that material is taken out of during use.

Condenser 8, condenser 8 one end is connected with vacuum tube 6 by pipeline.

Surge tank 9, one end of surge tank 9 is connected with the other end of condenser 8 by pipeline.

Vacuum pump 10, vacuum pump 10 is connected with the other end of surge tank 9 by pipeline.

As preferred embodiment of the present utility model, hollow driving shaft 21 stretches in drying machine main body 1, and hollow driving shaft 21 part in drying machine main body 1 is provided with spiral 23.When drying machine main body 1 is rolled, spiral 23 correspondingly rotates so that drying machine main body 1 is internal to be sufficiently mixed under the auxiliary of spiral 23 with material and contact inner bag 14 wall and be dried, it is ensured that the uniformity of dry materials, improves dry speed.

As preferred embodiment of the present utility model, the pipeline that vacuum pump 10 is connected with surge tank 9 is provided with Pressure gauge, and fluid reservoir 4 is provided with Pressure gauge.In time the pressure of pipeline and fluid reservoir 4 can be monitored.

In sum, adopt a kind of double conic rotary vacuum dryer assembly provided by the utility model, it is provided with drainage plate 16 by cavity 15, the circular arc distribution that drainage plate 16 is low in middle high both sides, thermal medium flows along drainage plate 16, thermal medium is made to be evenly distributed in inner bag 14 outside of drying machine main body 1, ensure the uniformity of drying machine main body 1 heating, glass cotton heat-insulation layer 17 it is filled with in cavity 15, good heat preservation performance, inner bag 14 throws in material, material stirs while obtain heat by inner bag 14 wall, rotary drying under vacuum, accelerate rate of drying, avoid material phenomenon of surface yellowing when dry, substantially reduce the dry materials time, improve labor productivity, decrease material simultaneously in dry run, be subject to the pollution of environment, the material that is particularly well-suited to have oxidized danger and heat sensitive material dry.Fluid reservoir 4 of the present utility model, the waste heat of thermal medium can be recycled; there is the effect of province's energy; vacuum tube 6, filter 7, condenser 8, surge tank 9 are set; vacuum pump 10 integration connects; compact conformation; ensure that this utility model can not shut down continuous operation, there is good heat transfer effect, improve work efficiency.

The foregoing is only preferred embodiment of the present utility model; not in order to limit this utility model; all within spirit of the present utility model and principle, any amendment of making, equivalent replacements, improvement etc., should be included within the scope that this utility model is protected.

Claims (4)

1. a double conic rotary vacuum dryer assembly, it is characterised in that including:

Drying machine main body, it is cylindrical in the middle of described drying machine main body, two ends are cone, two conical top are provided with material mouth and discharge outlet, and described drying machine main body is divided between shell, inner bag and described shell and inner bag the cavity of composition, and described cavity is available for medium passing mistake, described cavity is provided with drainage plate, described drainage plate is the circular arc distribution that middle high both sides are low, is filled with glass cotton heat-insulation layer in described cavity, and described drying machine main body both sides connect hollow driving shaft and hollow driven shaft；

Frame, described frame is two, and top is provided with bearing block, and described hollow driving shaft and hollow driven shaft are connected with two bearing blocks respectively；

Drive mechanism, described drive mechanism drives described hollow driving shaft to rotate, and then drives the rolling of drying machine main body；

Fluid reservoir, described fluid reservoir is used for holding thermal medium, and thermal medium is heated；

The pump housing, described pump housing one end is connected with described fluid reservoir by pipeline, the other end is connected with described hollow driven shaft by pipeline, under the effect of the described pump housing, thermal medium enters described cavity via described hollow driven shaft and described drying machine main body is heated, and is back to described fluid reservoir via described hollow driven shaft after heating；

Vacuum tube, described vacuum tube connects described drying machine body interior by described hollow driving shaft, and described vacuum tube is positioned at the exit of described drying machine body interior and is provided with filter element；

Filter, described filter one end is connected with described vacuum tube by pipeline；

Condenser, described condenser one end is connected with described vacuum tube by pipeline；

Surge tank, one end of described surge tank is connected with the other end of described condenser by pipeline；

Vacuum pump, described vacuum pump is connected with the other end of described surge tank by pipeline.

2. a kind of double conic rotary vacuum dryer assembly according to claim 1, it is characterised in that described hollow driving shaft stretches in described drying machine main body, and the hollow axle shaft section in described drying machine main body is arranged with spiral.

3. a kind of double conic rotary vacuum dryer assembly according to claim 1, it is characterized in that, described drive mechanism includes motor, belt, worm-gear speed reducer and chain, described motor is through worm-gear speed reducer described in described belt drive, and described worm-gear speed reducer rotates through hollow driving shaft described in described chain-driving.

4. a kind of double conic rotary vacuum dryer assembly according to claim 1, it is characterised in that described vacuum pump and the tank connected pipeline of described buffering are provided with Pressure gauge, and described fluid reservoir is provided with Pressure gauge.