CN207778999U - Bipyramid heat-tube vacuum dryness storehouse - Google Patents

Abstract

A kind of bipyramid heat-tube vacuum dryness storehouse of the utility model includes heating cabinet, dryness storehouse, discharge gate, holder.Holder fixedly supports the warehouse of heating cabinet and the warehouse of dryness storehouse, and dryness storehouse includes warehouse, exhaust pipe, heat pipe-type heat-dissipating pipe, feed inlet and outlet.Heat pipe-type heat-dissipating pipe includes heat-conducting work medium, metal tube, fin.The low head of the metal tube of heat pipe-type heat-dissipating pipe is the evaporation ends of heat pipe-type heat-dissipating pipe, and the tube body of metal tube is the condensation segment of heat pipe-type heat-dissipating pipe.Thermal energy carries out three-dimensional heat dissipation heating by the warehouse and heat pipe-type heat-dissipating pipe of dryness storehouse, the warehouse and heat pipe-type heat-dissipating pipe of dryness storehouse are in the case of the volume dryness storehouse of same size, its heat dissipation area increases 10-60 times, improve the heating heat-transfer rate of thermal energy, the drying efficiency for strengthening material has reached the quick-drying purpose of material.The low head of heat pipe-type heat-dissipating pipe is fixed on the tube sheet stress that can be reduced on warehouse caused by thermal expansion difference.Leakage is generated when damage occurs in a certain heat pipe-type heat-dissipating pipe, does not influence the use of entire bipyramid heat-tube vacuum dryness storehouse.

Description

Bipyramid heat-tube vacuum dryness storehouse

Technical field

The utility model relates to a kind of dryness storehouse, the bipyramid heat-tube vacuum drying on specifically a kind of drying equipment Storehouse.

Background technology

The bipyramid dryness storehouse of drying equipment is situated between by the way that the heat conduction of high temperature is added in the interlayer to dryness storehouse currently on the market Matter carries out heating heat exchange, and heat is contacted by the interlayer inner wall of bipyramid dryness storehouse with wet stock, the inner wall of bipyramid dryness storehouse Radiating surface be flat, heat dissipation area is small, and the heating surface area of material is small, influence thermal energy needed for dry materials reception conduction speed Degree.

Hot pipe technique is that one kind of the G.M.Grover utility models of LosAlamos National Laboratories of the U.S. in 1963 is known as The heat transfer element of " heat pipe ", it takes full advantage of the quick thermal transport property of heat-conduction principle and refrigeration filling, and heat-conducting work medium is logical It crosses " gas-liquid phase transition " to be transmitted to the heat of thermal objects outside heat source rapidly, the capacity of heat transmission is more than the heat conduction of any known metal Ability.

Chinese patent literature publication number CN106338185A discloses heat pipe-type dryness storehouse, by shell and heat pipe type heat exchanger Device forms, and heat pipe heat exchanger unit is in the inside of shell.The connection of shell and heat pipe heat exchanger unit is supported by holder and is fixed, Bleeding point, material inlet valve and the discharge valve of heat pipe heat exchanger unit extend shell.Chinese patent literature publication number Heat pipe heat exchanger unit disclosed in CN106322979A, by outer wall, inner wall, radiating riser, bleeding point, material inlet valve and discharging Valve forms.One end of radiating riser opening is welded on the mouth that inner wall is opened.Because between one end and inner and outer wall of radiating riser Inner cavity be the ventilative reason of perforation, it is necessary to the bottom end of radiating riser and inner wall are welded and fixed sealing and are integrated, heat pipe-type is dry There are hundreds of radiating risers in the heat pipe heat exchanger unit in dry storehouse, by the welding of the end and inner wall of hundreds of radiating risers The welding processing index request very specification of junction, but the quality problems of exposure welding are still easy, as long as hundreds of heat dissipations There are problems of welded quality at one in one end of standpipe and the pad of inner casing shell, only the pad of the leakage at one will The leakage of heat-conducting work medium is generated, leakage repair is also pretty troublesome, eventually leads to entire heat pipe-type dryness storehouse paralysis and scraps and can not make With.

Invention content

Problem to be solved in the utility model is to overcome the shortcomings of the prior art, provides a kind of bipyramid heat-tube vacuum Dryness storehouse.

In order to achieve the above object, the utility model is achieved through the following technical solutions：A kind of bipyramid heat-tube vacuum is dry Dry storehouse includes heating cabinet, dryness storehouse, discharge gate, holder.

The face shaping of the bipyramid heat-tube vacuum dryness storehouse is bipyramid shape or spherical shape.

The making material of the holder is metal bar or metal strip.

The making material of the heating cabinet of the bipyramid heat-tube vacuum dryness storehouse and the warehouse of dryness storehouse is metallic plate, metal The thickness of plate is 0.5-8mm.

The heating cabinet is in the outside of dryness storehouse；The connection of heating cabinet and dryness storehouse is supported by holder and is fixed.

The holder fixedly supports the warehouse of heating cabinet and the warehouse of dryness storehouse, the warehouse of heating cabinet and dryness storehouse Warehouse is supported by the fixed of holder, and the warehouse of heating cabinet and the warehouse of dryness storehouse are fixed by the bracket the bipyramid being connected as one Heat-tube vacuum dryness storehouse.

Spacing between the warehouse of heating cabinet and the warehouse of dryness storehouse is 18-180mm.

Insulating layer is stained with to keep the temperature outside the warehouse of heating cabinet.

There are thermal energy import and thermal energy outlet above the heating cabinet.

The dryness storehouse includes warehouse, exhaust pipe, heat pipe-type heat-dissipating pipe, feed inlet and outlet.

The discharge gate is fixedly mounted on the feed inlet and outlet of dryness storehouse, and material passes in and out drying by discharge gate Storehouse, after closing after discharge gate, bipyramid heat-tube vacuum dryness storehouse can start to be dried in vacuo material.

The exhaust pipe and feed inlet and outlet of the dryness storehouse extend heating cabinet, dryness storehouse heat in the interior tubular type heat-dissipating pipe.

Firm welding is wanted in the junction of the feed inlet and outlet of dryness storehouse and the warehouse of heating cabinet, the feed inlet and outlet of dryness storehouse and plus Want fixing seal gastight in junction between the warehouse in hot storehouse.

It is extended out among the thermal energy outlet that the exhaust pipe of dryness storehouse passes through heating cabinet, the inside of exhaust pipe and dryness storehouse is What perforation was breathed freely, the junction between exhaust pipe and the warehouse of dryness storehouse is that fixing seal is air-locked.

The heat pipe-type heat-dissipating pipe is the heat pipe-type heat-dissipating pipe of light pipe, or has the heat pipe-type heat-dissipating pipe of fin.

The heat pipe-type heat-dissipating pipe includes heat-conducting work medium, metal tube, fin.

The metal tube is both ends by upper cover and the closed metal tube of low head, and heat-conducting work medium is in metal tube Portion.

The combination of the fin and metal tube is fixed as one.

The connection form of fin and the metal tube is longitudinal shape, or around shape.

The height of the fin is 5-18mm, and the thickness of fin is 0.1-1mm, the spacing of adjacent fin and fin For 8-40mm.

Thickness, the height of fin are designed according to the Thermal Conductivity by Using of the temperature of heat-conducting medium and fin.

1, the thickness of fin be 0.1-1mm, fin height 5-18mm be according to the high temperature in heat pipe-type heat-dissipating pipe pipe The heat transfer of temperature of heat-conducting work medium have a relationship, too low fin height influences limited, the excessively high wing of conduction surface of thermal energy The conduction that piece height influences thermal energy is not got on.

2, the spacing of fin and fin is 8-40mm；According to D>The principle of 4d（D is the spacing of fin and fin, and d is object The diameter of material）, so the optimum distance between fin and fin is less than the length of four times of the diameter of material, can ensure in this way Material in bipyramid heat-tube vacuum dryness storehouse rotary course would not be stuck between fin and fin.Because material is true By heated drying under dummy status, thermal energy is merely able to give material heating by thermal conductivity, heat radiation under vacuum conditions, and material can be Be heated between two fins, if spacing between fin and fin is excessive to influence to give material heat conduction heating, fin and fin it Between spacing it is too small, material can be stuck in outside fin into not going, or movement does not circulate between being stuck in two fins, influences object The vacuum drying speed of material and dry uniform moisture degree.

3, diameter<The granule materials of 10mm can ensure the heat transfer of material, due to the thermal coefficient problem of material, examine Consider the heat transfer of itself of material, therefore, the granule materials for crossing major diameter are just not suitable for conductive drying, cross the particulate matter of major diameter Material, which is contemplated that, carries out the heat radiations such as microwave, infrared ray vacuum drying.So the spacing of fin and fin is up to 40mm It is most scientific design.

The upper cover at metal tube both ends and the face shaping of low head of the heat pipe-type heat-dissipating pipe are round convex.

On warehouse of the low head of the round convex of the metal tube of heat pipe-type heat-dissipating pipe convenient for fitting dryness storehouse.

The low head of the round convex of the metal tube of heat pipe-type heat-dissipating pipe also increases heat exchange area, is conducive to thermal energy and passes through circle The low head of convex is conducted on the heat-conducting work medium in metal tube.

The low head of the metal tube of the heat pipe-type heat-dissipating pipe is fitted on the warehouse of dryness storehouse；With electric welding machine by heat pipe The low head and dryness storehouse warehouse of the metal tube of formula heat-dissipating pipe are welded and fixed and are integrated, the lower envelope of the metal tube of heat pipe-type heat-dissipating pipe The connection junction of head and dryness storehouse warehouse is securely airtight.

Inner cavity between the inside and heating cabinet and dryness storehouse of heat pipe-type heat-dissipating pipe is not penetrate through, air-locked.

The adjacent tube spacing of the heat pipe-type heat-dissipating pipe and heat pipe-type heat-dissipating pipe is 50-100mm.

Each heat pipe-type heat-dissipating pipe is all independent one and is welded on the warehouse of dryness storehouse.

Fixed strip is fixedly connected on the upper cover of the metal tube of two adjacent heat pipe-type heat-dissipating pipes, there is fixed strip support Fixed heat pipe-type heat-dissipating pipe improves solidness during stirring material.

The inside of piece heat pipe-type heat-dissipating pipe and the inside of another heat pipe-type heat-dissipating pipe are not communicated with, when a certain heat There is damage and generates leakage in tubular type heat-dissipating pipe, does not influence the use of entire bipyramid heat-tube vacuum dryness storehouse.

Bipyramid heat-tube vacuum dryness storehouse is when carrying out dry materials work, effect of the bipyramid heat-tube vacuum dryness storehouse in external force Under can be rotated.

The low head of the metal tube of the heat pipe-type heat-dissipating pipe is the evaporation ends of heat pipe-type heat-dissipating pipe, heat pipe-type heat-dissipating pipe Metal tube tube body be heat pipe-type heat-dissipating pipe condensation segment.

The both ends of the metal tube of heat pipe-type heat-dissipating pipe with dryness storehouse rotary motion, the metal tube of heat pipe-type heat-dissipating pipe Low head is the evaporation ends of heat pipe-type heat-dissipating pipe, and the liquid heat-conducting work medium in metal tube drops by its own gravity to heat pipe At the low head of the metal tube of formula heat-dissipating pipe.

The heat-conducting medium of the high temperature is entered by the thermal energy import of heating cabinet between heating cabinet and dryness storehouse In chamber.

One, the thermal energy of carrying is passed by the warehouse of dryness storehouse by the high temperature heat conducting medium after the heating devices heat of peripheral hardware It leads to the end heat conduction heating of the metal tube lower end of heat pipe-type heat-dissipating pipe；Thermal energy passes through the heat pipe that is fitted on the warehouse of dryness storehouse The low head of the metal tube of formula heat-dissipating pipe provides thermal energy to the liquid heat-conducting work medium in heat pipe-type heat-dissipating pipe.

Two, thermal energy makes the liquid heat-conducting work medium Quick-gasifying in heat pipe-type heat-dissipating pipe, and gasiform after gasification is led Hot working fluid moves in the metal tube cavity of heat pipe-type heat-dissipating pipe, and the gasiform heat-conducting work medium after gasification is radiated by heat pipe-type For the metal tube and fin of pipework condensation section outward after heat dissipation, the gasiform heat-conducting work medium after gasification is condensed into liquid heat conduction work Matter, at the low head for the metal tube that condensed liquid heat-conducting work medium flows to heat pipe-type heat-dissipating pipe after heat gasify again, Heat-conducting work medium is completed the heat conduction and heat radiation in heat pipe-type heat-dissipating pipe by " gas-liquid phase transition " and is recycled.

Three, the warehouse of dryness storehouse and heat pipe-type heat-dissipating pipe be in the case of the volume dryness storehouse of same size, dryness storehouse The heat dissipation area of warehouse and heat pipe-type heat-dissipating pipe increases 10-60 times.The thermal energy of carrying is passed through drying by the heat-conducting medium of high temperature The warehouse in storehouse and the heat transfer of heat pipe-type heat-dissipating pipe, heat radiation are led to the material around the metal tube and fin of heat pipe-type heat-dissipating pipe Heat heating；Material has obtained energy heats, carries out the dry drying of material, reaches the material of necessary requirement water content standard.

The bipyramid dryness storehouse having currently on the market is that the both ends of heat-dissipating pipe are fixed on the warehouse of dryness storehouse, meeting in this way The problems such as with causing heat-dissipating pipe and warehouse tensile failure, heat-dissipating pipe unstability, heat-dissipating pipe can be pulled from warehouse.

The low head of the metal tube of the heat pipe-type heat-dissipating pipe of the application is fixed on warehouse, can not only reduce drying The axial load of the warehouse and heat pipe-type heat-dissipating pipe in storehouse, and the tube sheet stress caused by thermal expansion difference can be reduced.

The upper cover of the metal tube of heat pipe-type heat-dissipating pipe is to be supported to fix by fixed strip, has fixed strip to support fixed heat pipe Formula heat-dissipating pipe supports the warehouse of dryness storehouse, and the metallic plate for making warehouse can suitably thickness thinning.Itself weight of dryness storehouse Amount also decreases, and load when bipyramid heat-tube vacuum dryness storehouse rotary motion also reduces, and reduces the work(of driving device Rate.

The utility model has the advantages that compared with existing bipyramid dryness storehouse：A kind of bipyramid heat-tube vacuum dryness storehouse, The low head of the metal tube of heat pipe-type heat-dissipating pipe is fixed on warehouse, can not only reduce the warehouse and heat pipe-type of dryness storehouse The axial load of heat-dissipating pipe, and the tube sheet stress caused by thermal expansion difference can be reduced.There is fixed strip that fixed heat pipe-type is supported to dissipate Heat pipe standoff the warehouse of dryness storehouse, and the metallic plate for making warehouse can suitably thickness thinning.The heat-conducting medium of high temperature enters In inner cavity between heating cabinet and dryness storehouse, thermal energy carries out three-dimensional heat dissipation by the warehouse and heat pipe-type heat-dissipating pipe of dryness storehouse and adds Heat, in the case of the volume dryness storehouse of same size, heat dissipation area increases the warehouse and heat pipe-type heat-dissipating pipe of dryness storehouse 10-60 times, the heating heat-transfer rate of thermal energy is improved, the drying efficiency of material is strengthened, has reached the quick-drying mesh of material 's.The inside of piece heat pipe-type heat-dissipating pipe and the inside of another heat pipe-type heat-dissipating pipe are not communicated with, when a certain heat pipe-type There is damage and generates leakage in heat-dissipating pipe, does not influence the use of entire bipyramid heat-tube vacuum dryness storehouse.

Description of the drawings：

Fig. 1, for the structural schematic diagram of the utility model bipyramid heat-tube vacuum dryness storehouse；

Fig. 2, for the utility model bipyramid heat-tube vacuum dryness storehouse dryness storehouse structural schematic diagram；

Fig. 3, for the utility model bipyramid heat-tube vacuum dryness storehouse dryness storehouse heat pipe-type heat-dissipating pipe and warehouse connection Structural schematic diagram.

In figure：1, heating cabinet, 2, dryness storehouse, 3, exhaust pipe, 4, holder, 5, discharge gate, 6, heat pipe-type heat-dissipating pipe, 7, heat Can outlet, 8, thermal energy import, 9, fixed strip, 10, warehouse, 11, metal tube, 12, fin, 13, upper cover, 15, heat-conducting work medium, 16, low head, 18, feed inlet and outlet.

Specific implementation mode：

The utility model is described further with reference to the accompanying drawings and examples.

Bipyramid heat-tube vacuum dryness storehouse as shown in Figure 1 includes heating cabinet 1, dryness storehouse 2, discharge gate 5, holder 4.

The face shaping of the bipyramid heat-tube vacuum dryness storehouse is bipyramid shape.

The making material of the holder 4 is metal strip.

The warehouse of the heating cabinet 1 of the bipyramid heat-tube vacuum dryness storehouse, the warehouse 10 of dryness storehouse 2 making material be gold Belong to plate, the thickness of metallic plate is 3mm.

The heating cabinet 1 is in the outside of dryness storehouse 2.

The holder 4 fixedly supports the warehouse of heating cabinet 1 and the warehouse 10 of dryness storehouse 2, the warehouse of heating cabinet 1 and dry The warehouse 10 in dry storehouse 2 is supported by the fixed of holder 4.

Spacing between the warehouse of heating cabinet 1 and the warehouse 10 of dryness storehouse 2 is 80mm.

Insulating layer is stained with to keep the temperature outside the warehouse of heating cabinet 1.

The heating cabinet 1 has thermal energy import 8 and thermal energy outlet 7 above.

Dryness storehouse 2 as shown in Figure 1 and Figure 2 includes warehouse 10, exhaust pipe 3, heat pipe-type heat-dissipating pipe 6, feed inlet and outlet 18.

The discharge gate 5 is fixedly mounted on the feed inlet and outlet 18 of dryness storehouse 2.

The exhaust pipe 3 and feed inlet and outlet 18 of the dryness storehouse 2 extend heating cabinet 1.

Want firm welding, the input and output material of dryness storehouse 2 in the junction of the feed inlet and outlet 18 of dryness storehouse 2 and the warehouse of heating cabinet 1 Want fixing seal gastight in junction between mouth 18 and the warehouse of heating cabinet 1.

The exhaust pipe 3 of dryness storehouse 2 by being extended out among the thermal energy of heating cabinet 1 outlet 7, exhaust pipe 3 and dryness storehouse 2 Inside is that perforation is ventilative, and the junction between the warehouse 10 of exhaust pipe 3 and dryness storehouse 2 is that fixing seal is air-locked.

Heat pipe-type heat-dissipating pipe 6 as shown in Figure 2 and Figure 3 is the heat pipe-type heat-dissipating pipe of light pipe, or has the heat pipe-type of fin Heat-dissipating pipe.

The heat pipe-type heat-dissipating pipe 6 includes heat-conducting work medium 15, metal tube 11, fin 12.

The metal tube 11 is both ends by 16 closed metal tube 11 of upper cover 13 and low head, and heat-conducting work medium 15 is in gold Belong to the inside of pipe 11.

The combination of the fin 12 and metal tube 11 is fixed as one.

The connection form of the fin 12 and metal tube 11 is longitudinal shape, or around shape.

The height of the fin 12 is 5-18mm, and the thickness of fin 12 is 0.1-1mm, adjacent fin 12 and fin 12 spacing is 8-40mm.

The upper cover 13 at 11 both ends of metal tube and the face shaping of low head 16 of the heat pipe-type heat-dissipating pipe 6 are boss Shape.

The low head 16 of the metal tube 11 of the heat pipe-type heat-dissipating pipe 6 is fitted on the warehouse 10 of dryness storehouse 2；Heat pipe-type Low head 16 and 2 warehouse 10 of the dryness storehouse fixation of the metal tube 11 of heat-dissipating pipe 6 are welded as a whole, the metal of heat pipe-type heat-dissipating pipe 6 The connection junction of 2 warehouse 10 of low head 16 and dryness storehouse of pipe 11 is securely airtight.

Each heat pipe-type heat-dissipating pipe 6 is all independent one and is welded on the warehouse 10 of dryness storehouse 2.

Inner cavity between the inside and heating cabinet 1 and dryness storehouse 2 of heat pipe-type heat-dissipating pipe 6 is not penetrate through, is air-locked.

The inside of piece heat pipe-type heat-dissipating pipe 6 and the inside of another heat pipe-type heat-dissipating pipe 6 are not communicated with.

Leakage is generated when damage occurs in a certain heat pipe-type heat-dissipating pipe 6, does not influence entire bipyramid heat-tube vacuum dryness storehouse It uses.

The tube spacing of adjacent heat pipe-type heat-dissipating pipe 6 and heat pipe-type heat-dissipating pipe 6 is 80mm.

The fixed strip 9 is fixedly connected on the upper cover 13 of the metal tube 11 of two adjacent heat pipe-type heat-dissipating pipes 6.

There is fixed strip 9 that fixed heat pipe-type heat-dissipating pipe 6 is supported to improve heat pipe-type heat-dissipating pipe 6 during stirring material Solidness.

There is the warehouse 10 that fixed strip 9 supports fixed heat pipe-type heat-dissipating pipe 6 to support dryness storehouse 2, makes the gold of warehouse 10 Belonging to plate can also be decreased with thickness thinning, the own wt of dryness storehouse 2, when bipyramid heat-tube vacuum dryness storehouse rotary motion Load also reduces, and reduces the power of driving device.

The low head 16 of the metal tube 11 of the heat pipe-type heat-dissipating pipe 6 is the evaporation ends of heat pipe-type heat-dissipating pipe 6, heat pipe-type The tube body of the metal tube 11 of heat-dissipating pipe 6 is the condensation segment of heat pipe-type heat-dissipating pipe 6.

For heat pipe-type heat-dissipating pipe 6 with dryness storehouse 2 together rotary motion, the low head 16 of heat pipe-type heat-dissipating pipe 6 is heat pipe-type The evaporation ends of heat-dissipating pipe 6, the liquid heat-conducting work medium 15 in 11 pipe of metal tube drop by its own gravity to heat pipe-type heat-dissipating pipe 6 At interior low head 16.

Bipyramid heat-tube vacuum dryness storehouse is when carrying out dry materials work：

One, it after the discharge gate 5 on the feed inlet and outlet 18 that wet stock passes through dryness storehouse 2 enters the inside of dryness storehouse 2, closes Discharge gate 5, bipyramid heat-tube vacuum dryness storehouse proceed by dry materials work.

Two, the heat-conducting medium of high temperature is entered by the thermal energy import 8 of heating cabinet 1 between heating cabinet 1 and dryness storehouse 2 In chamber.

Three, for bipyramid heat-tube vacuum dryness storehouse when carrying out dry materials work, bipyramid heat-tube vacuum dryness storehouse is in external force Effect is lower to carry out rotary work.

Four, warehouse 10 and heat of the high temperature heat conducting medium in the inner cavity between heating cabinet 1 and dryness storehouse 2 to dryness storehouse 2 Tubular type heat-dissipating pipe 6 heats；Thermal energy entrained by heat-conducting medium is waited drying by the warehouse 10 and heat pipe-type heat-dissipating pipe 6 of dryness storehouse 2 Dry material carries out heat conduction, heating.

Five, in bipyramid heat-tube vacuum dryness storehouse rotary course, the heat pipe-type heat-dissipating pipe 6 in dryness storehouse 2 carries out material Simultaneously, heat pipe-type heat-dissipating pipe 6 also to material stir up and down heat conduction heat drying, and the moisture of material can be oven-dried more Uniformly, the quality of the material after drying can improve.

Six, the 7 discharge heating cabinet 1 of thermal energy outlet that the heat-conducting medium after radiating passes through heating cabinet 1.

Seven, the moisture that dry materials generate in dryness storehouse 2 is discharged by exhaust pipe 3 outside the storehouse of dryness storehouse 2.

Eight, after drying materials, the discharge gate 5 on the feed inlet and outlet 18 of dryness storehouse 2 is opened, the material after drying passes through dry Discharge gate 5 on the feed inlet and outlet 18 in dry storehouse 2 is discharged outside the storehouse of dryness storehouse 2.

Above example is merely used to help understand the production method and its core concept of the utility model, and specific implementation is not It is confined to above-mentioned specific embodiment, those skilled in the art is from above-mentioned design, without performing creative labour, institute The variation made, all falls within the scope of protection of the utility model.

Claims (6)

1. a kind of bipyramid heat-tube vacuum dryness storehouse, including heating cabinet（1）, dryness storehouse（2）, discharge gate（5）, holder（4）；It is special Sign is：Heating cabinet（1）In dryness storehouse（2）Outside；Dryness storehouse（2）Including warehouse（10）, exhaust pipe（3）, heat pipe-type heat dissipation Pipe（6）, feed inlet and outlet（18）；

The holder（4）Fixedly support heating cabinet（1）Warehouse and dryness storehouse（2）Warehouse（10）, heating cabinet（1）Storehouse Body and dryness storehouse（2）Warehouse（10）Pass through holder（4）Fixed support；Heating cabinet（1）Warehouse outside be stained with insulating layer To keep the temperature；

The heating cabinet（1）There is thermal energy import above（8）It is exported with thermal energy（7）；

The discharge gate（5）It is fixedly mounted on dryness storehouse（2）Feed inlet and outlet（18）On；

The dryness storehouse（2）Exhaust pipe（3）And feed inlet and outlet（18）Extend heating cabinet（1）；Dryness storehouse（2）Input and output material Mouthful（18）And heating cabinet（1）Warehouse between junction want fixing seal gastight；Dryness storehouse（2）Exhaust pipe（3）It is logical Cross heating cabinet（1）Thermal energy outlet（7）Centre extends out, exhaust pipe（3）And dryness storehouse（2）Inside be that perforation is ventilative, Exhaust pipe（3）And dryness storehouse（2）Warehouse（10）Between junction be that fixing seal is air-locked；

The heat pipe-type heat-dissipating pipe（6）It is the heat pipe-type heat-dissipating pipe of light pipe, or has the heat pipe-type heat-dissipating pipe of fin；

The heat pipe-type heat-dissipating pipe（6）Including heat-conducting work medium（15）, metal tube（11）, fin（12）；Metal tube（11）It is two End is by upper cover（13）And low head（16）Closed metal tube（11）, heat-conducting work medium（15）In metal tube（11）Inside；Wing Piece（12）And metal tube（11）Combination be fixed as one；Fin（12）And metal tube（11）Connection form be longitudinal shape , or around shape；

The heat pipe-type heat-dissipating pipe（6）Metal tube（11）The upper cover at both ends（13）And low head（16）Face shaping be Round convex；The heat pipe-type heat-dissipating pipe（6）Metal tube（11）Low head（16）It is fitted in dryness storehouse（2）Warehouse （10）On；Heat pipe-type heat-dissipating pipe（6）Metal tube（11）Low head（16）And dryness storehouse（2）Warehouse（10）Fixation is welded as one Body, heat pipe-type heat-dissipating pipe（6）Metal tube（11）Low head（16）And dryness storehouse（2）Warehouse（10）Connection junction it is secured It is airtight；

The heat pipe-type heat-dissipating pipe（6）Inside and heating cabinet（1）And dryness storehouse（2）Between inner cavity be not penetrate through, is impermeable Gas；A piece heat pipe-type heat-dissipating pipe（6）Inside and another heat pipe-type heat-dissipating pipe（6）Inside be not communicated with；When a certain Root heat pipe-type heat-dissipating pipe（6）There is damage and generate leakage, does not influence the use of entire bipyramid heat-tube vacuum dryness storehouse；

The fixed strip（9）It is fixedly connected on two adjacent heat pipe-type heat-dissipating pipes（6）Metal tube（11）Upper cover （13）On；

The heat pipe-type heat-dissipating pipe（6）Metal tube（11）Low head（16）It is heat pipe-type heat-dissipating pipe（6）Evaporation ends, heat Tubular type heat-dissipating pipe（6）Metal tube（11）Tube body be heat pipe-type heat-dissipating pipe（6）Condensation segment；

The thermal energy of carrying is passed through dryness storehouse by high temperature heat conducting medium（2）Warehouse（10）It is conducted to heat pipe-type heat-dissipating pipe（6）Gold Belong to pipe（11）The end heat conduction heating of lower end；Thermal energy is by being fitted in dryness storehouse（2）Warehouse（10）On heat pipe-type heat-dissipating pipe （6）Metal tube（11）Low head（16）Give heat pipe-type heat-dissipating pipe（6）Interior liquid heat-conducting work medium（15）Provide heat Can, heat-conducting work medium（15）Heat pipe-type heat-dissipating pipe is completed by " gas-liquid phase transition "（6）Interior heat conduction and heat radiation cycle；Heat-conducting medium is taken The thermal energy of band passes through dryness storehouse（2）Warehouse（10）And heat pipe-type heat-dissipating pipe（6）Heat conduction, heating are carried out to material to be dried.

2. a kind of bipyramid heat-tube vacuum dryness storehouse according to claim 1, it is characterised in that：Bipyramid heat-tube vacuum dryness storehouse Face shaping be bipyramid shape or spherical shape.

3. a kind of bipyramid heat-tube vacuum dryness storehouse according to claim 1, it is characterised in that：Heating cabinet（1）Warehouse and Dryness storehouse（2）Warehouse（10）Between spacing be 18-180mm.

4. a kind of bipyramid heat-tube vacuum dryness storehouse according to claim 1, it is characterised in that：Fin（12）Height be 5-18mm, fin（12）Thickness be 0.1-1mm, adjacent fin（12）With fin（12）Spacing be 8-40mm.

5. a kind of bipyramid heat-tube vacuum dryness storehouse according to claim 1, it is characterised in that：Adjacent heat pipe-type heat-dissipating pipe （6）With heat pipe-type heat-dissipating pipe（6）Tube spacing be 50-100mm.

6. a kind of bipyramid heat-tube vacuum dryness storehouse according to claim 1, it is characterised in that：Heat pipe-type heat-dissipating pipe（6）'s Internal and heating cabinet（1）And dryness storehouse（2）Between inner cavity be not penetrate through, is air-locked；A piece heat pipe-type heat-dissipating pipe（6）It is interior Portion and another heat pipe-type heat-dissipating pipe（6）Inside be not communicated with.