CN205316852U - Cylinder vacuum drying machine that can waste heat utilization - Google Patents

Abstract

The utility model relates to a cylinder vacuum drying machine that can waste heat utilization is by dry storehouse that can waste heat utilization, vacuum device of input or output material, and the air duct, the bearing roller support, the vacuum unit, drive arrangement and track are constituteed. Vacuum device of input or output material's flange connect and the nei cang both ends to advance discharge gate fixed connection as an organic whole, the preheating section in storehouse including the shell installation, dry section, the higher authority of cooling zone. Have heat energy import and heat energy export above the shell, the filling has heat conduction working medium in the inner chamber between shell and the interior storehouse. Track in drive arrangement is used for driving on the storehouse. The one end of air duct is connected to the vacuum unit, and the other end passes the inside that vacuum device of input or output material was connected to interior storehouse. The speed of heat conduction heat transfer has been improved for the three -dimensional heat transfer of the storehouse body and heat dissipation riser in interior storehouse, material vacuum drying in -process can obtain the cooling, and the heat energy that releases during its material cooling has also obtained the utilization, can realize the material vacuum drying of continuity.

Description

Can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN

Technical field

The utility model relates to a kind of vacuum drier, specifically a kind of can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN.

Background technology

In the processing fields such as present grain, food, chemical industry, medicine, agricultural byproducts, herbage, vegetable, it is necessary to material is being thermally dried process; The drying machine heat exchange of drum-type vacuum drying equipment currently on the market is many carries out heat exchange with calandria heat radiation, interlayer mode of heating, but their heat exchange area is little, heat energy service efficiency is low. Wet stock in process of vacuum drying through being commonly formed caking, cause the uneven drying of wet stock, affect the drying quality of material, material can not get cooling in process of vacuum drying, in the environment of normal pressure, cooling can cause material to get damp to be unfavorable for preserving, and the heat energy discharged during the cooling of high-temperature material after vacuum drying is not used.

The patent of my application a kind of can the dryness storehouse of UTILIZATION OF VESIDUAL HEAT IN, it is by shell, interior storehouse, device for discharging and heat-conducting work medium composition. Heat energy import and heat energy outlet is had above shell. Heat-conducting work medium is had in inner chamber between shell and interior storehouse. Interior storehouse is made up of warehouse, radiating riser and helical blade, the feed inlet and outlet at Nei Cang two ends installed above device for discharging. Heat-conducting work medium carries out heat conduction and heat radiation by warehouse and the radiating riser in interior storehouse, improves the heat conduction heat transfer rate of heat energy, has reached the drying purpose of Quick material; The radiating riser in interior storehouse and helical blade possess the function advancing stirring material, wet stock prevented from caking in dry drying course, optimize the dry drying quality of material; Reaching can be cooled down in dry materials process, heat energy during material cooling have also been obtained utilization, it is possible to achieve successional dry materials.

Summary of the invention

Problem to be solved in the utility model is the deficiency overcoming prior art to exist, I application can UTILIZATION OF VESIDUAL HEAT IN dryness storehouse basis on do further Aided design, provide a kind of can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN, material can be cooled down in process of vacuum drying, and the heat energy discharged during the cooling of its material have also been obtained utilization.

In order to arrive above-mentioned purpose, this utility model is achieved through the following technical solutions: a kind of can UTILIZATION OF VESIDUAL HEAT IN drum-type vacuum drying machine by can the dryness storehouse of UTILIZATION OF VESIDUAL HEAT IN, vacuum charging/discharging device, airway, roller rack, vacuum pump set, driving device and track composition.

Described can the drum-type vacuum drying machine of the UTILIZATION OF VESIDUAL HEAT IN temperature difference according to dried temperature of charge contrast temperature of charge before dry, design be divided into can UTILIZATION OF VESIDUAL HEAT IN drum-type vacuum drying machine A type and can two kinds of type products of drum-type vacuum drying machine Type B of UTILIZATION OF VESIDUAL HEAT IN.

1, can the drum-type vacuum drying machine A type of UTILIZATION OF VESIDUAL HEAT IN: if the contrast of dried temperature of charge dry before the temperature difference of temperature of charge more than 20 degree, consider the conduction heat exchange of heat energy, the usability price ratio of the heat energy that material cooling produces is high, and the value of heat energy is big; Preheating section, dryer section, three sections of cooling section can be divided in the inside in storehouse in the drum-type vacuum drying machine A type of UTILIZATION OF VESIDUAL HEAT IN.

2, can the drum-type vacuum drying machine Type B of UTILIZATION OF VESIDUAL HEAT IN: if the contrast of dried temperature of charge with dry before the temperature difference of temperature of charge below 20 degree, consider the conduction heat exchange of heat energy, the usability price ratio of the heat energy that material cooling produces is low, the value of heat energy is little, and these heat energy can do other heat energy purposes and use; Dryer section, two sections of cooling section can be divided in the inside in storehouse in the drum-type vacuum drying machine Type B of UTILIZATION OF VESIDUAL HEAT IN.

Described can the dryness storehouse of UTILIZATION OF VESIDUAL HEAT IN be the patent of my application, it is possible to the dryness storehouse of UTILIZATION OF VESIDUAL HEAT IN by shell, interior storehouse, heat-conducting work medium and device for discharging composition.

Described interior storehouse is made up of warehouse, radiating riser and helical blade.

On the feed inlet and outlet at described Nei Cang two ends, original device for discharging installed, makes vacuum charging/discharging device into.

Described vacuum charging/discharging device is the patent of my application.

Described vacuum charging/discharging device is by device for discharging, conveyance conduit, bump joint and feed arrangement composition.

The bump joint of described vacuum charging/discharging device and the feed inlet and outlet at Nei Cang two ends are connected to one.

Described shell is three independent shells, is separately mounted to the preheating section in interior storehouse, and dryer section, above cooling section.

Heat energy import and heat energy outlet is had above described shell.

1, the inner chamber between shell and interior storehouse is that sealing is gastight.

2, it is filled with heat-conducting work medium in the inner chamber between shell and interior storehouse.

Described heat-conducting work medium is water, or conduction oil, or steam, or air.

Described can be fixed with 12 tracks on the dryness storehouse of UTILIZATION OF VESIDUAL HEAT IN.

1, the warehouse in the interior storehouse between the shell in dryer section and the shell on cooling section is fixed with 1 track.

2, the warehouse in the interior storehouse between the shell in dryer section and the shell on preheating section is fixed with 1 track.

Described can the feed inlet and outlet at dryness storehouse Nei Cang two ends of UTILIZATION OF VESIDUAL HEAT IN be arranged on roller rack.

The described carrying roller on roller rack supports the feed inlet and outlet on interior storehouse.

Described driving device is used for the track driven on interior storehouse.

1, the track on interior storehouse is under the effect of driving device, and interior storehouse can rotary motion on roller rack.

2, can the shell of dryness storehouse of UTILIZATION OF VESIDUAL HEAT IN be fixed.

Described driving device is motor+change speed gear box, or air motor+change speed gear box, or hydraulic motor+change speed gear box.

Described heat-conducting work medium passes through heating devices heat, and the heat-conducting work medium carrying heat energy carries out heat exchange heat conduction to warehouse and the radiating riser in the interior storehouse of interior storehouse dryer section. After heat-conducting work medium after heat exchange is once again subjected to the heating of heater, be again introduced into heat exchange, what heat-conducting work medium went round and began again be heated, dispel the heat, heat conduction, heating, heat radiation, heat conduction.

One end of described airway is connected to vacuum pump set.

1, the position that the conveyance conduit of the traverse vacuum charging/discharging device of airway, airway and conveyance conduit connect wants fixing seal to be integrated.

2, the other end of airway is connected to the inside in interior storehouse through vacuum charging/discharging device.

3, vacuum pump set carrys out the gas in pump drainage Nei Cang storehouse by airway.

Described vacuum pump set is made up of vacuum pump and condenser.

Described vacuum pump be used for extracting can gas in the dryness storehouse storehouse of UTILIZATION OF VESIDUAL HEAT IN, the air pressure in interior storehouse is 0.045Mpa to 0.099Mpa.

Described condenser plays by interior storehouse materials inside after time dry, the condensable gas of produced dampness is condensed into water, and the volume of condensable gas is just remaining not few; The condensed not condensable gas of pump drainage can reduce the power of vacuum pump, and the heat energy that condensation produces can also be used again, reaches the effect of UTILIZATION OF VESIDUAL HEAT IN energy-saving and emission-reduction.

This utility model has the advantages that compared with existing vacuum drier: a kind of can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN, heat-conducting work medium is to heating material, heat conduction, thermal conversion efficiency is high and loss is little, interior storehouse is the three-dimensional heat exchange of warehouse and radiating riser, improves the speed of heat conduction heat exchange. Material by the turnover of vacuum charging/discharging device can the dryness storehouse of UTILIZATION OF VESIDUAL HEAT IN, material can carry out successional vacuum drying. Radiating riser and helical blade possess agitating function, improving material drying efficiency and optimization dry materials effect; Can being cooled down in drying material in vacuum process, the heat energy discharged during the cooling of its material have also been obtained utilization, it is possible to achieve successional drying material in vacuum.

Accompanying drawing illustrates:

Fig. 1, can the structural representation of drum-type vacuum drying machine A type of UTILIZATION OF VESIDUAL HEAT IN for this utility model;

Fig. 2, for this utility model can UTILIZATION OF VESIDUAL HEAT IN drum-type vacuum drying machine A type can the structural representation of dryness storehouse of UTILIZATION OF VESIDUAL HEAT IN;

Fig. 3, can the structural representation of vacuum charging/discharging device of drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN for this utility model;

Fig. 4, can the structural representation of drum-type vacuum drying machine Type B of UTILIZATION OF VESIDUAL HEAT IN for this utility model;

Fig. 5, for this utility model can UTILIZATION OF VESIDUAL HEAT IN drum-type vacuum drying machine Type B can the structural representation of dryness storehouse of UTILIZATION OF VESIDUAL HEAT IN.

Detailed description of the invention:

Below in conjunction with drawings and Examples, this utility model is described further.

Embodiment 1:

As shown in Figure 1 a kind of can the drum-type vacuum drying machine A type of UTILIZATION OF VESIDUAL HEAT IN, its by can the dryness storehouse (1) of UTILIZATION OF VESIDUAL HEAT IN, vacuum charging/discharging device (2), airway (3), vacuum pump set (4), roller rack (5), driving device (9) and track (8) composition.

As shown in Figure 1 and Figure 2 can UTILIZATION OF VESIDUAL HEAT IN drum-type vacuum drying machine A type can the dryness storehouse (1) of UTILIZATION OF VESIDUAL HEAT IN by shell (12), interior storehouse (13), heat-conducting work medium (18) forms.

Described interior storehouse (13) is made up of warehouse, radiating riser (16) and helical blade.

The upper installation of the feed inlet and outlet (15) at described interior storehouse (13) two ends is vacuum charging/discharging device (2).

Described the inside in interior storehouse (13) of drum-type vacuum drying machine A type of UTILIZATION OF VESIDUAL HEAT IN can be divided into preheating section (17), dryer section (14), cooling section (19).

Described shell (12) is separately mounted to the preheating section (17) of interior storehouse (13), and dryer section (14), above cooling section (19).

Heat energy import (11) and heat energy outlet (10) is had above described shell (12).

1, the inner chamber between shell (12) and interior storehouse (13) is that sealing is gastight.

2, it is filled with heat-conducting work medium (18) in the inner chamber between shell (12) and interior storehouse (13).

Described heat-conducting work medium (18) is air.

Described can be fixed with 2 tracks (8) on the dryness storehouse (1) of UTILIZATION OF VESIDUAL HEAT IN, and the warehouse of track (8) and interior storehouse (13) is connected to one.

1, the warehouse in the interior storehouse (13) between the shell (12) in dryer section (14) and the shell (12) on cooling section (19) is fixed with 1 track (8).

2, the warehouse in the interior storehouse (13) between the shell (12) in dryer section (14) and the shell (12) on preheating section (17) is fixed with 1 track (8).

The described carrying roller on roller rack (5) supports the feed inlet and outlet (15) of interior storehouse (13).

Described driving device (9) is used for the track (8) driven on interior storehouse (13).

In described track (8) drives under the effect of driving device (9), rotary motion is gone up at roller rack (5) in storehouse (13).

Described shell (12) is fixed.

Described driving device (9) is motor+change speed gear box.

Vacuum charging/discharging device (2) as shown in Figure 3 is by device for discharging (21), conveyance conduit (22), bump joint (23) and feed arrangement (20) composition.

Bump joint (23) and interior storehouse (13) two ends feed inlet and outlet (15) of described vacuum charging/discharging device (2) are connected to one.

One end of airway (3) as shown in Figure 1 and Figure 2 is connected to vacuum pump set (4).

1, airway (3) is through the conveyance conduit (22) of vacuum charging/discharging device (2), and the position that airway (3) and conveyance conduit (22) connect wants fixing seal to be integrated.

2, the conveyance conduit (22) of other end traverse vacuum charging/discharging device (2) of airway (3) is connected to the inside of interior storehouse (13).

Described vacuum pump set (4) carrys out gas in the storehouse of storehouse in pump drainage (13) by airway (3).

Described vacuum pump set (4) is made up of vacuum pump and condenser.

Gas in the storehouse in storehouse (13) in described vacuum pump set (4) extraction, the air pressure in interior storehouse (13) is preferably 0.090Mpa.

Can the drum-type vacuum drying machine A type of UTILIZATION OF VESIDUAL HEAT IN vacuum drying flow process when carrying out dry materials work as follows.

One, material by vacuum charging/discharging device (2) enter into can the interior storehouse (13) of dryness storehouse (1) of UTILIZATION OF VESIDUAL HEAT IN inner, material passes sequentially through the preheating section (17) of interior storehouse (13), dryer section (14), cooling section (19), the material after dry cooling finally by vacuum charging/discharging device (2) discharge can UTILIZATION OF VESIDUAL HEAT IN dryness storehouse (1) interior storehouse (13) storehouse outside.

Two, the work of the dryer section (14) of interior storehouse (13):

1, in track (8) drives under the effect of driving device (9), rotary motion is gone up at roller rack (5) in storehouse (13), material after preheating Nei Cang (13) inner be subject to radiating riser (16 and helical blade stirring advance, material stir Nei Cang (13) dryer section (14) in dry.

2, after the heating of heat-conducting work medium (18) heated device, after the heat energy import (11) of heat-conducting work medium (18) drying section (14) shell enters the inner chamber between shell (12) and interior storehouse (13);The heat-conducting work medium (18) carrying heat energy carries out heat exchange heat conduction by warehouse and the radiating riser (16) of interior storehouse (13) to material, reaches the effect of dried material heat supply.

3, between heat energy outlet (10) discharge shell (12) and interior storehouse (13) of heat-conducting work medium (18) drying section (14) shell after heat exchange after inner chamber; Heat-conducting work medium (18) is once again subjected to the heating of heater, what heat-conducting work medium (18) went round and began again be heated, heat exchange, heat conduction, heating, heat exchange, heat conduction.

4, the dampness that material produces in dry run passes through storehouse (13) in airway (3) is discharged by vacuum pump set (4). The heat energy that vacuum pump set (4) condenser condensed moisture produces can use again, reaches the effect of UTILIZATION OF VESIDUAL HEAT IN energy-saving and emission-reduction.

5, the shell (12) of Nei Cang (13) dryer section (14) heat-insulation layer outward covers on shell (12), and heat-insulation layer and shell (12) are fixing connections.

Three, the related job of the UTILIZATION OF VESIDUAL HEAT IN of the cooling section (19) of interior storehouse (13) and preheating section (14).

1, dried high-temperature material is made directly heat conduction heating at Nei Cang (13) cooling section (19) warehouse by interior storehouse (13) and radiating riser (16) to the heat-conducting work medium (18) in inner chamber between shell (12) and interior storehouse (13).

2, absorb the heat-conducting work medium (18) after the heat energy that material cooling discharges and export the shell (12) of storehouse (13) cooling section (19) in (10) discharge by the heat energy of the shell (12) of interior storehouse (13) cooling section (19).

3, the heat-conducting work medium (18) absorbing the heat energy that material cooling discharges is entered inner chamber between shell (12) and interior storehouse (13) by fastener for connection by the heat energy import (11) of the shell (12) of interior storehouse (13) preheating section (14).

4, the heat energy that heat-conducting work medium (18) carries is made directly preheating, heat conduction by warehouse and the radiating riser (4) in preheating section (14) interior storehouse (13) to material.

5, the heat-conducting work medium (18) after heat radiation exports the shell (12) of storehouse (13) preheating section (14) in (10) discharge by the heat energy of the shell (12) of interior storehouse (13) preheating section (14).

6, the heat-conducting work medium (18) after heat radiation is entered inner chamber between shell (12) and interior storehouse (13) by fastener for connection by the heat energy import (11) of the shell (12) of interior storehouse (13) cooling section (19); The heat energy that heat-conducting work medium (18) is discharged by the cooling accepting material heats again, the heat radiation that always circulates, heating; Heat radiation, heating, the heat energy discharged when reaching material cooling obtains effective UTILIZATION OF VESIDUAL HEAT IN, reaches the effect of energy-saving and emission-reduction.

7, the heat-insulation layer on shell (12) and shell (12) are fixed as one.

Embodiment 2:

As shown in Figure 4 a kind of can the drum-type vacuum drying machine Type B of UTILIZATION OF VESIDUAL HEAT IN, its by can the dryness storehouse (1) of UTILIZATION OF VESIDUAL HEAT IN, vacuum charging/discharging device (2), airway (3), vacuum pump set (4), roller rack (5), driving device (9) and track (8) composition.

As Fig. 4 show a kind of can the drum-type vacuum drying machine A type combinative structure something in common of UTILIZATION OF VESIDUAL HEAT IN just not repeating of introducing of drum-type vacuum drying machine Type B and the embodiment 1 of UTILIZATION OF VESIDUAL HEAT IN.

As shown in Figure 5 can UTILIZATION OF VESIDUAL HEAT IN drum-type vacuum drying machine Type B can the dryness storehouse (1) of UTILIZATION OF VESIDUAL HEAT IN by shell (12), interior storehouse (13), heat-conducting work medium (18) forms.

Described the inside in interior storehouse (13) of drum-type vacuum drying machine Type B of UTILIZATION OF VESIDUAL HEAT IN can be divided into dryer section (14), cooling section (19).

The dryer section (14) in described interior storehouse (13), what cooling section (19) and embodiment 1 were introduced the inside in interior storehouse (13) of drum-type vacuum drying machine A type of UTILIZATION OF VESIDUAL HEAT IN can be divided into dryer section (14), and the structure something in common of cooling section (19) does not just repeat.

Can the drum-type vacuum drying machine Type B of UTILIZATION OF VESIDUAL HEAT IN drying flow process when carrying out drying materials work as follows.

One, material by vacuum charging/discharging device (2) enter into can the interior storehouse (13) of dryness storehouse (1) of UTILIZATION OF VESIDUAL HEAT IN inner, pass sequentially through the dryer section (14) of interior storehouse (13), cooling section (19), the dried material after cooling finally by vacuum charging/discharging device (2) discharge can UTILIZATION OF VESIDUAL HEAT IN dryness storehouse (1) interior storehouse (13) storehouse outside.

Two, the dry workflow that the dry workflow of the dryer section (14) of interior storehouse (13) and embodiment 1 are introduced is identical, and something in common does not just repeat.

Three, the material vacuum cooling work of the cooling section (19) of interior storehouse (13).

1, described heat-conducting work medium (18) is air.

2, heat-conducting work medium (18) enters inner chamber between shell (12) and interior storehouse (13) by the heat energy import (11) of the shell (12) of interior storehouse (13) cooling section (19).

3, dried high-temperature material is made directly heating at Nei Cang (13) cooling section (19) warehouse to interior storehouse (13) and radiating riser (16) directly to the heat-conducting work medium (18) in inner chamber between shell (12) and interior storehouse (13).

4, heat-conducting work medium (18) carries material and cools down the heat energy discharged, and exports (10) by the heat energy of the shell (12) of interior storehouse (13) cooling section (19) and discharges shell (12).

5, the heat energy that carries of heat-conducting work medium (18) discharging shell (12) place of Selection utilization can carry out heat energy use.

6, the inner chamber of the shell (12) of heat-conducting work medium (18) continual turnover cooling section (19) and interior storehouse (13), material just reaches the effect of vacuum cooled.

Above example is only intended to help to understand manufacture method of the present utility model and core concept thereof; it is embodied as being not limited to above-mentioned specific embodiment; those skilled in the art is from above-mentioned design; without performing creative labour; done change, all falls within protection domain of the present utility model.

Claims (10)

1. one kind can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN, it is characterized in that: can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN by can the dryness storehouse (1) of UTILIZATION OF VESIDUAL HEAT IN, vacuum charging/discharging device (2), airway (3), vacuum pump set (4), roller rack (5), driving device (9) and track (8) composition;

Described can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN be divided into can UTILIZATION OF VESIDUAL HEAT IN drum-type vacuum drying machine A type and can two kinds of type products of drum-type vacuum drying machine Type B of UTILIZATION OF VESIDUAL HEAT IN;

Described can the dryness storehouse (1) of UTILIZATION OF VESIDUAL HEAT IN by shell (12), interior storehouse (13), heat-conducting work medium (18) forms;

Described interior storehouse (13) is made up of warehouse, radiating riser (16) and helical blade;

The upper installation of the feed inlet and outlet (15) at described interior storehouse (13) two ends is vacuum charging/discharging device (2);

Described shell (12) is separately mounted to the preheating section (17) of interior storehouse (13), and dryer section (14), above cooling section (19);

Heat energy import (11) and heat energy outlet (10) is had above described shell (12);

The described heat-insulation layer on shell (12) and shell (12) are to be fixed as one;

It is filled with heat-conducting work medium (18) in inner chamber between described shell (12) and interior storehouse (13);

Described can be fixed with 12 tracks (8) on the dryness storehouse (1) of UTILIZATION OF VESIDUAL HEAT IN;

The described carrying roller on roller rack (5) supports the feed inlet and outlet (15) of interior storehouse (13);

Described driving device (9) drives the track (8) on interior storehouse (13);

The bump joint (23) of described vacuum charging/discharging device (2) and the feed inlet and outlet (15) at interior storehouse (13) two ends are connected to one;

One end of described airway (3) is connected to vacuum pump set (4), and the conveyance conduit (22) of other end traverse vacuum charging/discharging device (2) of airway (3) is connected to the inside of interior storehouse (13);

Described vacuum pump set (4) carrys out gas in the storehouse of storehouse in pump drainage (13) by airway (3).

2. according to claim 1 a kind of can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN, it is characterized in that: the inside in interior storehouse (13) of drum-type vacuum drying machine A type of UTILIZATION OF VESIDUAL HEAT IN can be divided into preheating section (17), dryer section (14), cooling section (19); The inside in interior storehouse (13) of drum-type vacuum drying machine Type B of UTILIZATION OF VESIDUAL HEAT IN can be divided into dryer section (14), cooling section (19).

3. according to claim 1 a kind of can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN, it is characterised in that: the warehouse in the shell (12) in dryer section (14) and the interior storehouse (13) between the shell (12) on cooling section (19) is fixed with 1 track (8); The warehouse in the interior storehouse (13) between the shell (12) in dryer section (14) and the shell (12) on preheating section (17) is fixed with 1 track (8).

4. according to claim 1 a kind of can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN, it is characterised in that: heat-conducting work medium (18) is water, or conduction oil, or steam, or air.

5. according to claim 1 a kind of can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN, it is characterised in that: driving device (9) is motor+change speed gear box, or air motor+change speed gear box, or hydraulic motor+change speed gear box.

6. according to claim 1 a kind of can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN, it is characterised in that: vacuum charging/discharging device (2) is by device for discharging (21), conveyance conduit (22), bump joint (23) and feed arrangement (20) composition.

7. according to claim 1 a kind of can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN, it is characterised in that: track (8) drive under the effect of driving device (9) in storehouse (13) in the upper rotary motion of roller rack (5); Shell (12) is fixed.

8. according to claim 1 a kind of can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN, it is characterised in that: the position that airway (3) and conveyance conduit (22) connect to be sealed into one.

9. according to claim 1 a kind of can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN, it is characterised in that: vacuum pump set (4) is made up of vacuum pump and condenser.

10. according to claim 1 a kind of can the drum-type vacuum drying machine of UTILIZATION OF VESIDUAL HEAT IN, it is characterised in that: the air pressure in interior storehouse (13) is 0.045Mpa to 0.099Mpa.