CN201563559U - Alternating-temperature constant-temperature drying device - Google Patents

Abstract

The utility model discloses an alternating-temperature constant-temperature drying device which comprises a shell, a plurality of interlayers, a multi-stage alternating-temperature constant-temperature drying room, a transmission system, a partition door, an inlet, an outlet, a vertical transmission system and a microwave system. The shell is a hollow structure approximating to a cube. The alternating-temperature constant-temperature drying device further includes a group of side doors. The interlayers are arranged inside the shell and comprise a group of interlayers horizontally arranged and used for supporting the transmission system above thereof. The vertical transmission system is arranged at the two sides inside the shell and used for connecting neighboring transmission system. The transmission system is arranged on each interlayer and further includes a group of positive transmission system and a group of negative transmission system. The microwave system comprises a group of microwave components arranged on the bottom surfaces of each interlayer.

Description

A kind of temperature-changeable constant-humidity drying device

Technical field

The utility model relates to a kind of drying device, particularly a kind of temperature-changeable constant-humidity drying device.

Background technology

In the reconstituted rice process, it is short but mouthfeel is constant boils rice soon as required reconstituted rice to be cure into the time of boiling.Ageing method commonly used is boiling, is about to the uncooked rice boiling and becomes to have the necessarily rice of degree of boiling.

Yet it is different with common instant-rice, microwave rice to boil rice soon, boiling rice soon is not the rice that boils, but the more approaching a kind of rice with general rice of appearance and water content, yet different with general rice be that boiling rice soon only needs just can boil and eat through the digestion time of a few minutes.Simultaneously approach general rice owing to boil the water content of rice soon, far below instant-rice etc., so its storage condition is loose relatively, long shelf-life, the more approaching and general rice of its storage condition.

Boil rice soon if adopt the mode of common cooking rice to prepare, because in the early stage and the mid-term of boiling, the water content of rice outer surface is too high greater than the water content and the boiling temperature of inside, this will cause the gelatinization degree of rice appearance rice starch higher, and the later stage of boiling, the outer surface of rice and inner water content are just returned and are reached balance gradually.Yet many times, in the water content deficiency of final stage of cooking owing to external environment, boiling temperature is by continuous high temperature, and the rice outer surface can be in dehydration under the hot conditions, and its water content attenuating also is lower than its inner water content.That is to say that adopt its outer surface gelatinization degree height of the resulting grain of rice of mode and the outer surface water content of traditional cooking rice to be lower than inside, this will cause the grain of rice to produce following problem in dry run thereafter:

1, surperficial gelatinization degree height can cause intergranular bonding agglomerating, thereby makes particle drying inhomogeneous, and the granulating degree is not high, and further cause percent defective increase and owing to dry should not storing of thoroughly not bringing.

2, because in the dry run; the moisture loss speed of particle outer surface is greater than the lost speed of internal moisture; so usually can bring the crack performance and the particle disrepair phenomenon of particle surface; if and this particle outer surface water content is lower than inside, this will further aggravate the generation and the occurrence degree thereof of crack performance and disrepair phenomenon.

In view of the These characteristics of boiling rice, need under different temperature and humidity conditions, carry out boiling to reconstituted rice, with the difference of gelatinization degree, outer surface and the interior moisture content of controlling its outer surface, also need simultaneously a kind ofly can effectively avoid the crack performance of particle surface and the drying mode of particle disrepair phenomenon.

Chinese patent application 200410085962.8 discloses a kind of preparation method of sterile rice.This method only is rice to be divided in carry out boiling in the container, can't effectively control the difference of gelatinization degree, outer surface and interior moisture content.

Chinese patent application 200410048492.8 discloses a kind of manufacture method of packing rice.This method and device side overweight the control of sterilization and steam, influence gelatinization degree even if can control by steam, yet still fail to solve the problem of the difference of outer surface and interior moisture content.

Chinese patent application 03114076.9,89106724.8,03110698.6 and 03224724.9 all discloses the method and apparatus of continuously cooking rice simultaneously, yet said method and device only stress the continuity with cooking rice, be automation and industrialization degree, still can't solve the problem of the difference of gelatinization degree, outer surface and interior moisture content, can't satisfy the needs that instant rice is equipped with.

Summary of the invention

The utility model discloses a kind of temperature-changeable constant-humidity drying device, comprise housing, interlayer, multistage variable-temperature constant humidity hothouse, transmission system, partition door, import, outlet, vertical transmission system and microwave system.

Described housing is the approximate cube structure of a hollow, further comprises one group of side door.

Described interlayer is positioned at enclosure interior, comprises the interlayer of one group of horizontal distribution, is used for support level transmission system thereon.

Described multistage variable-temperature constant humidity hothouse is positioned at enclosure interior, has one group by hothouse that housing, interlayer and partition door surrounded.

Described transmission system is located on each wall, is that one group of surface has the bar shaped guide rail and is furnished with the conveyer belt systems of homologue magazine.

Described microwave system comprises one group of microwave components that is located on each interlayer basal surface.

Described each microwave components comprises microwave generator and microwave waveguide device, is used for generating and the conduction microwave, to regulate each hothouse internal temperature.

The quantity of the microwave components on described each interlayer basal surface is consistent with the quantity of the inner material box that can hold of each hothouse.Each microwave components on the described same interlayer basal surface equidistantly distributes.

The interlayer of described horizontal distribution is the sheet building of horizontal distribution, is a kind of cuboid of hollow, and the position vertically is divided into sandwich construction with housing.

The interlayer of described each horizontal distribution is separated into some hothouses with housing, to form described multistage variable-temperature constant humidity hothouse.The basal surface of the interlayer of described each horizontal distribution is provided with one group of fumarole, and described shower nozzle is positioned at described each hothouse inside, and to wherein spraying gas.Described interlayer is connected on the housing, and supports the transmission system on it.

Described vertical transmission system is arranged on the both sides of enclosure interior, is used to get in touch adjacent transmission system.

Described partition door comprises the partition door that is positioned at each layer of enclosure interior hothouse left and right sides.Described partition door is a kind of extraction-type door, and under extraneous motor-driven, a side that does not have side door from housing is extracted out, thereby opens.Described import connects the housing front side.Described import becomes 10 °～30 ° angles with horizontal plane.

Described outlet connects the housing rear side.Described outlet becomes 10 °～30 ° angles with horizontal plane.

Described transmission system is placed on each interlayer, further comprises one group of forward transmission system and one group of reverse transfer system.

The transmission direction of described forward transmission system and reverse transfer system is opposite and spaced apart.

Described forward transmission system and reverse transfer system comprise that all transport tape structure and one group are positioned at the structural material box of each transport tape.Described transport tape structure further comprises transport tape and one group of transmission axle.

Described transmission axle is used for the transport tape on it is transferred to the rear side that housing is connected with discharge system from the front side that housing is connected with import.

The inner surface that described transport tape and transmission axle are in contact with one another is provided with gear, and the gear on this gear and transmission axle surface is meshing with each other, to realize synchronous transfer.

Described transport tape outer surface has 1～3 bar shaped guide rail that discontinuity distributes, the quantity geomery of the strip groove of this bar shaped guide rail and material box bottom is adaptive mutually, so that described material box is fixed on the transport tape and prevents the material box lateral sliding by removable.

Described material box is the rectangular structure of opened top, and its basal surface has and the mutual adaptive strip groove of bar shaped guide rail.

Described vertical transmission system comprises pedestal, scissor lift frame, platform.Described vertical transmission system is located between adjacent the forward transmission system and reverse transfer system.

Described pedestal is fixed on the housing.Described scissor lift frame bottom connects pedestal, and top connects platform.

When described scissor lift frame was packed up, the transport tape that platform on it and position adjacent are lower was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 2mm～22mm.

When described scissor lift frame was opened, the higher transport tape of platform on it and position adjacent was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 2mm～22mm.

Described platform has break-in transport tape and one group of break-in transmission axle.

Described break-in transmission axle rotates under extraneous motor-driven, thereby drives its break-in transport tape that connects motion.The further reverse rotation under extraneous motor-driven of described break-in transmission axle, thus drive the break-in transport tape reverse movement that it connects.

The end of described import and adjacent transport tape are positioned on the same horizontal plane, and front end interconnects with the transmitting device of outside, is used for importing material box from the outside to this transport tape.

The front end of described outlet and adjacent transport tape are positioned on the same horizontal plane, and terminal with outside transmitting device interconnects, and are used for receiving material box and outwards transmission from this transport tape.

Described temperature-changeable constant-humidity drying device comprises the interlayer of 3 horizontal distribution at least, promptly comprises 3 hothouses at least.

Description of drawings

Fig. 1 is the overall structure perspective view of temperature-changeable constant-humidity drying device of the present utility model.

Fig. 2 a is the left view of temperature-changeable constant-humidity drying device of the present utility model.

Fig. 2 b is the right cutaway view of temperature-changeable constant-humidity drying device of the present utility model.

Fig. 3 is the side view and the vertical view of conveyer belt of the present utility model.

The specific embodiment

According to claim of the present utility model and the disclosed content of specification, the technical solution of the utility model is specific as follows described:

Embodiment one:

According to Fig. 1, Fig. 2 a, 2b:

A kind of temperature-changeable constant-humidity drying device comprises housing 201, interlayer 202, multistage variable-temperature constant humidity hothouse 203, transmission system 204, partition door 205, import 206, outlet 207, vertical transmission system 208 and microwave system 209.

Described housing 201 is approximate cube structures of a hollow, further comprises one group of side door 2011.

Described interlayer 202 is positioned at housing 201 inside, comprises the interlayer 2020 of one group of horizontal distribution, is used for support level transmission system 204 thereon.

Described multistage variable-temperature constant humidity hothouse 203 is positioned at housing 201 inside, has one group of hothouse 2030 that is surrounded by housing 201, interlayer 202 and partition door 205.

Described transmission system 204 is located on each wall 2022, is that one group of surface has the bar shaped guide rail and is furnished with the conveyer belt systems of homologue magazine.

Described import 206 connects housing 201 front sides.Described outlet 207 connects housing 201 rear sides.

Described vertical transmission system 208 is arranged on the both sides of housing 201 inside, is used to get in touch adjacent transmission system 204.According to Fig. 1, Fig. 3:

Described transmission system 204 is placed on each interlayer 202, further comprises one group of forward transmission system and one group of reverse transfer system 2040 '.

The transmission direction of described forward transmission system and reverse transfer system 2040 ' is opposite and spaced apart.

Described forward transmission system and reverse transfer system 2040 ' all comprise transport tape structure 2040 and one group of material box 2049 that is positioned on each transport tape structure 2040.Described transport tape structure 2040 further comprises transport tape 2041 and one group of transmission axle 2042.

Described transmission axle 2042 is used for the transport tape on it 2041 is transferred to the rear side that housing 201 is connected with discharge system 207 from the front side that housing 201 is connected with import 206.

Described transport tape 2041 is provided with gear with the inner surface that transmission axle is in contact with one another, and the gear on this gear and transmission axle 2042 surfaces is meshing with each other, to realize synchronous transfer.

Described transport tape 2041 outer surfaces have 1～3 bar shaped guide rail 2045 that discontinuity distributes, this bar shaped guide rail 2045 is adaptive mutually with the quantity geomery of the strip groove 20490 of material box 2049 bottoms, so that described material box 2049 is fixed on the transport tape 2041 and prevents material box 2049 lateral slidings by removable.

Described material box 2049 is rectangular structure of opened top, and its basal surface has and the mutual adaptive strip groove 20490 of bar shaped guide rail.

According to Fig. 1, Fig. 2 a, 2b:

The interlayer 2020 of described horizontal distribution is the sheet building of horizontal distribution, is a kind of cuboid of hollow, and the position vertically is divided into sandwich construction with housing 201.

The interlayer 2020 of described each horizontal distribution is separated into some hothouses 2030 with housing 201, to form described multistage variable-temperature constant humidity hothouse 203.The basal surface of the interlayer 2020 of described each horizontal distribution is provided with one group of fumarole 2021, and described shower nozzle is positioned at described each hothouse 2030 inside, and to wherein spraying gas.The interlayer 2020 of described horizontal distribution is connected on the housing 201, and supports the transmission system 204 on it.

Described partition door 205 comprises the partition door 2050 that is positioned at housing 201 inner each layer hothouse left and right sides.Described partition door 2050 is a kind of extraction-type doors, and under extraneous motor-driven, a side that does not have side door from housing 201 is extracted out, thereby opens.

Described microwave system 209 comprises one group of microwave components 2090 that is located on each interlayer 202 basal surface.

Described each microwave components 2090 comprises microwave generator and microwave waveguide device, is used for generating and the conduction microwave, to regulate each hothouse 2030 internal temperature.

The quantity of the microwave components 2090 on described each interlayer 202 basal surface is consistent with the quantity of each hothouse 2030 inner material box 2049 that can hold.Each microwave components 2090 on described same interlayer 202 basal surfaces equidistantly distributes.

Described vertical transmission system 208 comprises pedestal 2081, scissor lift frame 2082, platform 2083.Described vertical transmission system 208 is located between adjacent the forward transmission system and reverse transfer system 2040 '.

Described pedestal 2081 is fixed on the housing 201.Described scissor lift frame 2082 bottoms connect pedestal 2081, and top connects platform 2083.

When described scissor lift frame 2082 was packed up, the transport tape 2041 that platform on it 2083 and position adjacent are lower was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 2mm～22mm.

When described scissor lift frame 2082 was opened, the higher transport tape 2041 of platform on it 2083 and position adjacent was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 2mm～22mm.

Described platform 2083 has break-in transport tape 2084 and one group of break-in transmission axle 2085.

Described break-in transmission axle rotates under extraneous motor-driven, thereby drives its break-in transport tape that connects 2084 motions.The further reverse rotation under extraneous motor-driven of described break-in transmission axle, thus drive break-in transport tape 2084 reverse movements that it connects.

The end of described import 206 and adjacent transport tape 2041 are positioned on the same horizontal plane, and front end interconnects with the transmitting device of outside, are used for from the outside to these transport tape 2041 input material box 2049.Described import 206 becomes 10 °～30 ° angles with horizontal plane

The front end of described outlet 207 and adjacent transport tape 2041 are positioned on the same horizontal plane, and terminal with outside transmitting device interconnects, and are used for receiving material box 2049 and outwards transmission from this transport tape 2041.Described outlet 207 becomes 10 °～30 ° angles with horizontal plane.

Described temperature-changeable constant-humidity drying device comprises the interlayer 2020 of 3 horizontal distribution at least, promptly comprises 3 hothouses 2030 at least.

Adopt described temperature-changeable constant-humidity drying device to carry out dry process, comprise following steps:

According to Fig. 1, Fig. 2 a, 2b, Fig. 3:

Step 21: on corresponding transport tape 2041, import material box 2049 into by described import 206.

The groove 20490 of described material box 2049 bottoms is adaptive mutually with the bar shaped guide rail 2045 on the transport tape 2041, thereby material box 2049 is fixed on the transport tape 2041.

Step 22: the transport tape 2041 of forward transmission system is meshing with each other with the gear of transmission axle 2042, so that transmission axle 2042 drive synchronously transport tapes 2041 from the front side of housing 201 side shifting backward, in this process, material box 2049 also moves under the drive of transport tape 2041 thereupon.

Step 23: partition door 205 is under extraneous motor-driven, and extraction is opened to housing 201 outsides, and scissor lift frame 2082 is opened at this moment, and the platform 2083 on it is positioned at same plane and sliding-contact with the transport tape 2041 of this forward transmission system.

This moment, break-in transmission axle 2085 transmission axle 2042 rotation directions with the forward transmission system under extraneous driven by motor of platform 2083 were consistent, thereby made that the direction of motion of break-in transport tape 2084 of platform 2083 is consistent with transport tape 2041 directions of motion of forward transmission system.

The material box 2049 that is positioned at forward transmission system end moves along transport tape 2041, and under the induced effect of effect of inertia and break-in transport tape 2084, moves on on the platform 2083.

Scissor lift frame 2082 shrinks subsequently, and the platform 2083 that drives on it descends.

This moment scissor lift frame 2082 closures, the platform 2083 on it is positioned at same plane and sliding-contact with the transport tape 2041 of this reverse transfer system 2040 '.

This moment, break-in transmission axle 2085 transmission axle 2042 rotation directions with reverse transfer system 2040 ' under extraneous driven by motor of platform 2083 were consistent, thereby made that the direction of motion of break-in transport tape 2084 of platform 2083 is consistent with transport tape 2041 directions of motion of reverse transfer system 2040 '.

The material box 2049 that is positioned on the platform 2083 moves along break-in transport tape 2084, and under the induced effect of effect of inertia and reverse transfer system 2040 ' terminal transport tape 2041, moves on on the reverse transfer system 2040 ' transport tape 2041.

Partition door 205 is closed from the insertion of housing 201 outsides under extraneous motor-driven.

The platform 2083 that described scissor lift frame 2082 drives on it rises.

Step 24: the transport tape 2041 of reverse transfer system 2040 ' is meshing with each other with the gear of transmission axle 2042, so that transmission axle 2042 drives transport tapes 2041 synchronously from the rear side of housing 201 side shifting forward, in this process, material box 2049 also moves under the drive of transport tape 2041 thereupon.

Step 25: repeat above-mentioned steps, make material box 2049 pass through each vertical transmission system 208, be broken line shape in housing 201 inside and move successively along each forward transmission system and each reverse transfer system 2040 '.

Step 26: in material box 2049 moving process, fumarole 2021 on the basal surface of the interlayer 2020 by each horizontal distribution, have the gas of uniform temperature humidity to each hothouse 2030 inner ejections, thereby make material box 2049 under the different temperatures humidity environment of each hothouse 2030, be dried.

Regulate each hothouse 2030 temperature inside by each microwave components 2090 of microwave system 209 as required simultaneously.

Step 27: drying material box 2049 is later outputed to outlet 207 places adjacent with this transport tape 2041 by transport tape 2041, and this outlet 207 receives material box 2049 and outwards transmission from this transport tape 2041.

Embodiment two:

Adopt following technical parameter to improve embodiment one:

Described transport tape 2041 outer surfaces have 1～3 bar shaped guide rail 2045 that discontinuity distributes.

When described scissor lift frame 2082 was packed up, the transport tape 2041 that platform on it 2083 and position adjacent are lower was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 3mm.

When described scissor lift frame 2082 was opened, the higher transport tape 2041 of platform on it 2083 and position adjacent was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 3mm.

Described import 206 becomes 10 ° of angles with horizontal plane

Described outlet 207 becomes 10 ° of angles with horizontal plane.

Embodiment three:

Adopt following technical parameter to improve embodiment one:

Described transport tape 2041 outer surfaces have 1 bar shaped guide rail 2045 that discontinuity distributes.

When described scissor lift frame 2082 was packed up, the transport tape 2041 that platform on it 2083 and position adjacent are lower was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 5mm.

When described scissor lift frame 2082 was opened, the higher transport tape 2041 of platform on it 2083 and position adjacent was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 5mm.

Described import 206 becomes 10 ° of angles with horizontal plane

Described outlet 207 becomes 10 ° of angles with horizontal plane.

Embodiment four:

Adopt following technical parameter to improve embodiment one:

Described transport tape 2041 outer surfaces have 1 bar shaped guide rail 2045 that discontinuity distributes.

When described scissor lift frame 2082 was packed up, the transport tape 2041 that platform on it 2083 and position adjacent are lower was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 7mm.

When described scissor lift frame 2082 was opened, the higher transport tape 2041 of platform on it 2083 and position adjacent was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 7mm.

Described import 206 becomes 15 ° of angles with horizontal plane

Described outlet 207 becomes 15 ° of angles with horizontal plane.

Embodiment five:

Adopt following technical parameter to improve embodiment one:

Described transport tape 2041 outer surfaces have 2 bar shaped guide rails 2045 that discontinuity distributes.

When described scissor lift frame 2082 was packed up, the transport tape 2041 that platform on it 2083 and position adjacent are lower was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 9mm.

When described scissor lift frame 2082 was opened, the higher transport tape 2041 of platform on it 2083 and position adjacent was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 9mm.

Described import 206 becomes 15 ° of angles with horizontal plane

Described outlet 207 becomes 15 ° of angles with horizontal plane.

Embodiment six:

Adopt following technical parameter to improve embodiment one:

Described transport tape 2041 outer surfaces have 2 bar shaped guide rails 2045 that discontinuity distributes.

When described scissor lift frame 2082 was packed up, the transport tape 2041 that platform on it 2083 and position adjacent are lower was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 11mm.

When described scissor lift frame 2082 was opened, the higher transport tape 2041 of platform on it 2083 and position adjacent was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 11mm.

Described import 206 becomes 20 ° of angles with horizontal plane

Described outlet 207 becomes 20 ° of angles with horizontal plane.

Embodiment seven:

Adopt following technical parameter to improve embodiment one:

Described transport tape 2041 outer surfaces have 2 bar shaped guide rails 2045 that discontinuity distributes.

When described scissor lift frame 2082 was packed up, the transport tape 2041 that platform on it 2083 and position adjacent are lower was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 13mm.

When described scissor lift frame 2082 was opened, the higher transport tape 2041 of platform on it 2083 and position adjacent was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 13mm.

Described import 206 becomes 20 ° of angles with horizontal plane

Described outlet 207 becomes 20 ° of angles with horizontal plane.

Embodiment eight:

Adopt following technical parameter to improve embodiment one:

Described transport tape 2041 outer surfaces have 2 bar shaped guide rails 2045 that discontinuity distributes.

When described scissor lift frame 2082 was packed up, the transport tape 2041 that platform on it 2083 and position adjacent are lower was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 15mm.

When described scissor lift frame 2082 was opened, the higher transport tape 2041 of platform on it 2083 and position adjacent was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 15mm.

Described import 206 becomes 25 ° of angles with horizontal plane

Described outlet 207 becomes 25 ° of angles with horizontal plane.

Embodiment nine:

Adopt following technical parameter to improve embodiment one:

Described transport tape 2041 outer surfaces have 3 bar shaped guide rails 2045 that discontinuity distributes.

When described scissor lift frame 2082 was packed up, the transport tape 2041 that platform on it 2083 and position adjacent are lower was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 17mm.

When described scissor lift frame 2082 was opened, the higher transport tape 2041 of platform on it 2083 and position adjacent was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 17mm.

Described import 206 becomes 25 ° of angles with horizontal plane

Described outlet 207 becomes 25 ° of angles with horizontal plane.

Embodiment ten:

Adopt following technical parameter to improve embodiment one:

Described transport tape 2041 outer surfaces have 3 bar shaped guide rails 2045 that discontinuity distributes.

When described scissor lift frame 2082 was packed up, the transport tape 2041 that platform on it 2083 and position adjacent are lower was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 19mm.

When described scissor lift frame 2082 was opened, the higher transport tape 2041 of platform on it 2083 and position adjacent was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 19mm.

Described import 206 becomes 30 ° of angles with horizontal plane

Described outlet 207 becomes 30 ° of angles with horizontal plane.

Embodiment 11:

Adopt following technical parameter to improve embodiment one:

Described transport tape 2041 outer surfaces have 3 bar shaped guide rails 2045 that discontinuity distributes.

When described scissor lift frame 2082 was packed up, the transport tape 2041 that platform on it 2083 and position adjacent are lower was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 21mm.

When described scissor lift frame 2082 was opened, the higher transport tape 2041 of platform on it 2083 and position adjacent was positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 21mm.

Described import 206 becomes 30 ° of angles with horizontal plane

Described outlet 207 becomes 30 ° of angles with horizontal plane.

Claims (10)

1. temperature-changeable constant-humidity drying device, it is characterized in that, comprise housing (201), interlayer (202), multistage variable-temperature constant humidity hothouse (203), transmission system (204), partition door (205), import (206), outlet (207), vertical transmission system (208) and microwave system (209);

Described housing (201) is the approximate cube structure of a hollow, further comprises one group of side door (2011);

Described interlayer (202) is positioned at housing (201) inside, comprises the interlayer (2020) of one group of horizontal distribution, is used for support level transmission system (204) thereon;

Described multistage variable-temperature constant humidity hothouse (203) is positioned at housing (201) inside, has one group of hothouse (2030) that is surrounded by housing (201), interlayer (202) and partition door (205);

Described transmission system (204) is located on each interlayer (202), is that one group of surface has the bar shaped guide rail and is furnished with the conveyer belt systems of homologue magazine (2049);

Described microwave system (209) comprises one group of microwave components (2090) that is located on each interlayer (202) basal surface;

Described microwave system (209) is located on each interlayer (202) basal surface;

Described each microwave components (2090) comprises microwave generator and microwave waveguide device, is used for generating and the conduction microwave, to regulate each hothouse (2030) internal temperature;

The quantity of the microwave components (2090) on described each interlayer (202) basal surface is consistent with the quantity of the inner material box (2049) that can hold of each hothouse (2030);

Each microwave components (2090) on described same interlayer (202) basal surface equidistantly distributes.

2. temperature-changeable constant-humidity drying device as claimed in claim 1 is characterized in that, the interlayer of described horizontal distribution (2020) is the sheet building of horizontal distribution, is a kind of cuboid of hollow, and the position vertically is divided into sandwich construction with housing (201);

The interlayer of described each horizontal distribution (2020) is separated into some hothouses (2030) with housing (201), to form described multistage variable-temperature constant humidity hothouse (203);

The basal surface of the interlayer of described each horizontal distribution (2020) is provided with one group of fumarole (2021), and described shower nozzle is positioned at described each hothouse (2030) inside, and to wherein spraying gas;

The interlayer of described horizontal distribution (2020) is connected on the housing (201), and supports the transmission system (204) on it;

Described vertical transmission system (208) is arranged on the inner both sides of housing (201), is used to get in touch adjacent transmission system (204).

3. temperature-changeable constant-humidity drying device as claimed in claim 2 is characterized in that, described partition door (205) comprises the partition door (2050) that is positioned at inner each layer hothouse of housing (201) left and right sides;

Described partition door (2050) is a kind of extraction-type door, and under extraneous motor-driven, a side that does not have side door from housing (201) is extracted out, thereby opens;

Described import (206) connects housing (201) front side, and becomes 10 °～30 ° angles with horizontal plane;

Described outlet (207) connects housing (201) rear side, and becomes 10 °～30 ° angles with horizontal plane.

4. temperature-changeable constant-humidity drying device as claimed in claim 3 is characterized in that, described transmission system (204) is placed on each interlayer (202), further comprises one group of forward transmission system and one group of reverse transfer system (2040 ');

The transmission direction of described forward transmission system and reverse transfer system (2040 ') is opposite and spaced apart.

Described forward transmission system and reverse transfer system (2040 ') all comprise transport tape structure (2040) and one group of material box (2049) that is positioned on each transport tape structure (2040).

5. temperature-changeable constant-humidity drying device as claimed in claim 4 is characterized in that, described transport tape structure (2040) further comprises transport tape (2041) and one group of transmission axle (2042);

Described transmission axle (2042) is used for the transport tape on it (2041) is transferred to the rear side that housing (201) is connected with discharge system (207) from the front side that housing (201) is connected with import (206);

Described transport tape (2041) is provided with gear with the inner surface that transmission axle is in contact with one another, and the gear on this gear and transmission axle (2042) surface is meshing with each other, to realize synchronous transfer.

6. temperature-changeable constant-humidity drying device as claimed in claim 5, it is characterized in that, described transport tape (2041) outer surface has 1～3 bar shaped guide rail (2045) that discontinuity distributes, this bar shaped guide rail (2045) is adaptive mutually with the quantity geomery of the strip groove (20490) of material box (2049) bottom, so that material box (2049) lateral sliding is gone up and prevented to described material box (2049) by the removable transport tape (2041) that is fixed on;

Described material box (2049) is the rectangular structure of opened top, and its basal surface has and the mutual adaptive strip groove (20490) of bar shaped guide rail.

7. temperature-changeable constant-humidity drying device as claimed in claim 6 is characterized in that, described vertical transmission system (208) comprises pedestal (2081), scissor lift frame (2082), platform (2083);

Described vertical transmission system (208) is located between adjacent the forward transmission system and reverse transfer system (2040 ');

Described pedestal (2081) is fixed on the housing (201);

Described scissor lift frame (2082) bottom connects pedestal (2081), and top connects platform (2083);

Described scissor lift frame (2082) is when packing up, and the transport tape (2041) that the platform on it (2083) and position adjacent are lower is positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 2mm～22mm;

Described scissor lift frame (2082) is when opening, and the higher transport tape (2041) of the platform on it (2083) and position adjacent is positioned on the same horizontal plane, and sliding-contact mutual with it also maintains the safety clearance of 2mm～22mm.

8. temperature-changeable constant-humidity drying device as claimed in claim 7 is characterized in that, described platform (2083) has break-in transport tape (2084) and one group of break-in transmission axle (2085);

Described break-in transmission axle rotates under extraneous motor-driven, thereby drives its break-in transport tape (2084) that connects motion;

The further reverse rotation under extraneous motor-driven of described break-in transmission axle, thus drive break-in transport tape (2084) reverse movement that it connects.

9. temperature-changeable constant-humidity drying device as claimed in claim 8, it is characterized in that, the end of described import (206) and adjacent transport tape (2041) are positioned on the same horizontal plane, front end interconnects with the transmitting device of outside, is used for from the outside to this transport tape (2041) input material box (2049);

The front end of described outlet (207) and adjacent transport tape (2041) are positioned on the same horizontal plane, and terminal with outside transmitting device interconnects, and are used for receiving material box (2049) and outwards transmission from this transport tape (2041).

10. temperature-changeable constant-humidity drying device as claimed in claim 9 is characterized in that, described temperature-changeable constant-humidity drying device comprises the interlayer (2020) of 3 horizontal distribution at least, promptly comprises 3 hothouses (2030) at least.

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