CN113551499A

CN113551499A - Drying device is used in industrial chemicals processing

Info

Publication number: CN113551499A
Application number: CN202111105018.4A
Authority: CN
Inventors: 韩世龙; 储巍巍
Original assignee: Jiangsu Feiya Chemical Industry Group Co ltd
Current assignee: Jiangsu Feiya Chemical Industry Group Co ltd
Priority date: 2021-09-22
Filing date: 2021-09-22
Publication date: 2021-10-26
Anticipated expiration: 2041-09-22
Also published as: CN113551499B

Abstract

The invention discloses a drying device for processing chemical raw materials, which belongs to the field of raw material drying and processing, and comprises a solid material drying box, wherein the side surface of the solid material drying box is fixedly connected with a condensed water discharge pipe for discharging collected water, the top of the solid material drying box is provided with a feeding port, the inner side of the solid material drying box is symmetrically provided with two water leakage inclined plate boxes along the vertical central line of the solid material drying box, a material stirring shaft rotating plate for stirring materials is rotatably arranged in each water leakage inclined plate box, and a material stirring hopper groove is formed in each material stirring shaft rotating plate; the top parts of the two water leakage inclined plate boxes are fixedly connected with the material receiving bedplate fixed on the solid material drying box.

Description

Drying device is used in industrial chemicals processing

Technical Field

The invention relates to the field of raw material drying processing, in particular to a drying device for processing chemical raw materials.

Background

Chemical raw materials can be generally divided into two categories, namely organic chemical raw materials and inorganic chemical raw materials, and solid raw materials exist in the organic chemical raw materials and the inorganic chemical raw materials.

The invention carries out drying processing aiming at solid granular materials in organic matters and inorganic matters, and because part of chemical raw materials need to be kept in a dehydrated and dried state, the chemical raw materials can not be influenced by water and are fused; or wash solid-state material, get rid of surface impurity clean back, need dry in order to make things convenient for the save, but, have the gap between general raw materials, adopt big wind-force to blow away the raw materials easily, and adopt high temperature direct drying also to cause adverse effect to the performance of raw materials itself easily for drying device's carrying power is not high, and drying efficiency is slower.

Disclosure of Invention

1. Technical problem to be solved

The drying device for processing the chemical raw materials can realize the recycling of hot steam, has the effects of energy conservation and environmental protection, and can be linked with a plurality of groups of structures to operate simultaneously through a driving structure, thereby simplifying the driving structure, reducing the manufacturing cost, keeping the internal structure dry and improving the drying efficiency.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A drying device for processing chemical raw materials comprises a solid material drying box, wherein a condensed water discharging pipe for discharging collected water is fixedly connected to the side face of the solid material drying box, a feeding port is formed in the top of the solid material drying box, two water-leaking inclined plate boxes are symmetrically arranged on the inner side of the solid material drying box along the vertical central line of the solid material drying box, a material stirring shaft rotating plate for stirring materials is rotatably arranged in each water-leaking inclined plate box, and a material stirring hopper groove is formed in each material stirring shaft rotating plate;

the top parts of the two water leakage inclined plate boxes are fixedly connected with a material receiving bedplate fixed on the solid material drying box, a blanking port for material conveying is formed in the material receiving bedplate and used for communicating the water leakage inclined plate boxes with the upper part of the material receiving bedplate, and an air compression plate located at a material feeding port is arranged at the top part of the material receiving bedplate;

heating wire pipes for drying are arranged on the side surfaces of the two water leakage inclined plate boxes;

a steam channel is arranged between the two water leakage inclined plate boxes and the solid material drying box, and the side wall of the steam channel is rotatably connected with a wind guide fan blade in transmission connection with the material turning shaft rotating plate.

Furthermore, exhaust ports are formed in the two sides of the material receiving bedplate and above the steam channel, a distilled water condensation plate with an L-shaped appearance is fixedly mounted at the top of an opening of each exhaust port, the distilled water condensation plates on the two sides are opposite to the opening formed between the material receiving bedplate, a material baffle plate is arranged on the other side of each exhaust port, and the material baffle plate extends obliquely towards the upper side of the inner side of each distilled water condensation plate.

Furthermore, the water leakage inclined plate box is separated from the steam channel through the vent plate, the bottom end of the steam channel and the water leakage inclined plate box form a communicating structure, the front side and the rear side of the vent plate are fixedly installed on the solid material drying box, a plurality of vent holes are formed in the surface of the vent plate, and the vent plate is rotatably connected with the air guide fan blade.

Furthermore, a rotating shaft is fixedly connected to the axis of the opposite side of the two material turning shaft rotating plates, linkage driving wheels are fixedly connected to the tail ends of the rotating shafts, and a linkage wheel shaft is rotatably connected to one side between the two linkage driving wheels;

the surface of one of the rotating shafts is fixedly connected with a crown gear, the side surface of the crown gear is engaged and connected with a motor gear, and the motor gear is fixedly connected with a driving motor through an output shaft;

the outer side of the driving motor is fixedly provided with a heat insulation end shell, the heat insulation end shell is fixedly arranged on a driving support plate, and the driving support plate is fixedly arranged between the two vent plates.

Furthermore, a linkage rod is fixedly connected to the surface of the linkage wheel shaft, the tail end of the linkage rod is rotatably connected with a bottom plate hinge seat, the top end of the bottom plate hinge seat is fixedly connected with a lifting plate, the lifting plate is arranged in the material fixing drying box in a sliding mode along the vertical direction, a lifting slide rod is fixedly connected to the upper surface of the lifting plate, the top end of the lifting slide rod upwards penetrates through the material receiving bedplate and is fixedly connected with an air compression plate, and the lifting slide rod and the material receiving bedplate form a sliding connection structure;

the outer side of the lifting slide bar is sleeved with a spring, one end of the spring is fixedly connected with an air compression plate, and two sides of the air compression plate extend downwards in an arc shape.

Furthermore, the middle part of the material receiving bedplate is downwards sunken to form a groove, and the bending part of the groove is arc-shaped;

the blanking port is located on the bottom surface of the groove, an arc swinging plate is fixedly connected to the side face of the blanking port, two arc plates bent outwards are fixedly connected to the upper surface of the groove, the arc plates extend towards the inner side of the air compression plate, and the arc plates are symmetrical about the vertical central line of the material receiving table plate.

Furthermore, the terminal side of the inclined plate case that leaks is provided with the unloading passageway, be provided with the workbin that falls under the inclined plate case that leaks, the inside bottom surface of inclined plate case and workbin that falls that leaks is slope surface, and the incline direction is opposite, the discharge gate has been seted up to the side of workbin that falls.

Furthermore, a plurality of small holes are formed in the inclined slope surface of the water leakage inclined plate box, the small holes in the surface of the water leakage inclined plate box are smaller than the diameter of the material, and the water leakage inclined plate box and the water condensation discharge pipe form a communicated structure;

the heating wire pipes are evenly distributed on the side surface of the water leakage inclined plate box in an S shape.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme, hot water vapour through the inside formation of solid material drying cabinet, let steam enter into inside the steam passageway through the breather plate through the structure, follow steam passageway ascending upwards afterwards and with material baffle and the contact of distillation water condensation board, and let steam condense on material baffle and distillation water condensation board surface, the water that condenses afterwards slides down along the steam passageway downwards, collect in the swash plate incasement that leaks, condense at steam simultaneously and form hot-blastly between material baffle and distillation water condensation board, weather the material of just entering the mouth, this structure utilizes the ascending principle of hot steam, and let its condensation release heat, dry the material, collect the water after the condensation simultaneously, realize the reuse of heat energy, can play the energy can be saved, heat recovery utilizes, the effect that the comdenstion water was collected, make processing environmental protection more.

(2) This scheme, through the inside that the air vent entering steam channel of the swash plate side can pass through to the hot-air of the swash plate incasement that leaks to under the rotation of wind-guiding flabellum, take out the hot-air that puts the space on the swash plate case that will leak, play the effect that reduces inside temperature.

(3) According to the scheme, the motor gear is driven to rotate through the driving motor, the motor gear is further meshed with the crown gear, the crown gear is driven to rotate, when the crown gear rotates, the rotating shaft at one end rotates, the linkage driving wheel connected with the end of the rotating shaft also rotates along with the rotation of the rotating shaft, when the linkage driving wheel rotates, the linkage driving wheel connected with the side face of the linkage driving wheel rotates through the linkage wheel shaft connected with the side face of the linkage driving wheel, the linkage driving wheel at the other side is driven to rotate, structural linkage is further achieved, the guide fan blade connected with the rotating shaft is enabled to rotate simultaneously with the material turning shaft rotating plate, the linkage wheel shaft is driven to be in a connecting structure above the linkage wheel shaft to operate, the effect of simplifying the whole driving structure is achieved, and electric energy consumed by equipment can be reduced.

(4) When the linkage wheel shaft swings along with the rotation of the linkage driving wheel, the linkage rod connected with the linkage wheel shaft also swings along with the linkage rod, so that the base plate hinged seat connected with the linkage rod pushes the lifting plate to move up and down, when the lifting plate moves up and down, the lifting slide rod connected with the upper side of the lifting plate drives the air compression plate to move up and down together, and simultaneously when the air compression plate moves up, the spring is pulled, when the air compression plate moves down, the spring is compressed, when the air compression plate moves up and down, the structure of compressed air is formed by matching with the structure on the material receiving bedplate, through the structure, the gas around the air compression plate is driven to flow, when the air compression plate structure rises, the surrounding air flows to the space below the compression plate by contracting gas, so that the material on the material receiving bedplate is driven to move, and the material is gathered to the lowest side of the material receiving bedplate, and the function of collection is achieved.

(5) This scheme, the heat that looses through the heater wire pipe sees through the aperture on the swash plate case surface that leaks, let the water on the swash plate case surface that leaks and the upper space material surface atomize, let water pass through the hot gas atomization steam of formation of water, and the solid material that rolls on the swash plate case surface that leaks is through the water that is stained with when rolling, it flows into the swash plate incasement portion that leaks to be in the same direction as swash plate case surface and aperture to leak, and discharge through the calandria that congeals water, this structure is through the heating, let the inner structure with the material contact keep dry and prevent that the inner part is after long-time use, produce the corrosion, can let the moisture evaporation on material surface simultaneously, reach quick drying, the effect of drying efficiency is improved.

Drawings

FIG. 1 is a schematic front perspective view of the present invention;

FIG. 2 is a schematic view of the internal structure of the solid material drying oven according to the present invention;

FIG. 3 is a schematic view of the installation position of the air guiding blade of the present invention;

FIG. 4 is a schematic diagram of a material receiving platen structure according to the present invention;

FIG. 5 is a schematic view of the air compression plate drive configuration of the present invention;

FIG. 6 is a schematic view of the drive connection structure of the present invention;

FIG. 7 is a schematic diagram of a turning shaft rotating plate structure according to the present invention;

fig. 8 is a schematic view of the distribution structure of the heating wire pipes of the present invention.

The reference numbers in the figures illustrate:

1. a feeding port; 2. a solid material drying box; 3. a condensed water discharging pipe; 4. an air compression plate; 5. a distilled water condensation plate; 6. an exhaust port; 7. a steam channel; 8. a breather plate; 9. a water leakage inclined plate box; 10. a blanking channel; 11. blanking the material box; 12. a drive support plate; 13. a thermally insulated end shell; 14. a fan blade; 15. a discharge port; 16. a vent hole; 17. a material turning shaft rotating plate; 18. a rotating shaft; 19. a linkage driving wheel; 20. a lifting plate; 21. lifting the sliding rod; 22. a spring; 23. a material receiving bedplate; 24. a blanking port; 25. an arc-shaped swinging plate; 26. a linkage axle; 27. a linkage rod; 28. a crown gear; 29. a motor gear; 30. a drive motor; 31. a hopper shifting groove; 32. heating the wire tube; 33. the bottom plate is hinged with the base.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

Referring to fig. 1-3 and 7, a drying device for processing chemical raw materials comprises a solid material drying box 2, a condensed water discharging pipe 3 for discharging and collecting water is fixedly connected to the side surface of the solid material drying box 2, a feeding port 1 is arranged at the top of the solid material drying box 2, two water-leaking inclined plate boxes 9 are symmetrically arranged on the inner side of the solid material drying box 2 along the vertical central line of the solid material drying box, a material stirring shaft rotating plate 17 for stirring materials is rotatably arranged in each water-leaking inclined plate box 9, a material stirring hopper groove 31 is arranged on each material stirring shaft rotating plate 17, the material stirring hopper groove 31 is arranged on one side of each material stirring shaft rotating plate 17 for stirring materials, the middle part of the material stirring shaft is thin, the two sides of the material stirring shaft are thick, so that the material stirring shaft is beneficial to gathering materials when stirring the materials, and the material stirring teeth can be further arranged inside the material stirring hopper groove 31 and are vertical to the material stirring hopper groove 31, so that the material stirring when the material stirring shaft rotating plate 17 rotates is beneficial to stirring the materials, and the materials are heated more uniformly;

referring to fig. 4-5, the tops of the two water-leaking inclined plate boxes 9 are fixedly connected with a material receiving platen 23 fixed on the solid material drying box 2, the material receiving platen 23 is provided with a material dropping port 24 for material delivery, which is used for communicating the water-leaking inclined plate boxes 9 with the upper side of the material receiving platen 23, the top of the material receiving platen 23 is provided with an air compression plate 4 located at the material feeding port 1 and located inside the material feeding port 1, during the material drying process, the material firstly falls on the air compression plate 4 when poured into the material feeding port 1, the material passes through the air compression plate 4 and then enters the water-leaking inclined plate boxes 9 through the material dropping port 24 for drying, the effect is better, further, the top of the air compression plate 4 can be set into an upward protruding arc shape, a plurality of convex strips with arc-shaped cross sections are arranged on the upper surface of the air compression plate 4 along the front-back direction, so as to form a block the material dropping port, and enable the material to more uniformly enter the material dropping port 24, the materials are prevented from being piled up due to one-time dumping, and drying is not facilitated;

referring to fig. 2-3 and 8, the side surfaces of the two water leakage inclined plate boxes 9 are respectively provided with a heating wire pipe 32 for drying, and the heating wire pipes 32 are used for drying materials, the heating wire pipes 32 in the application can be arranged on the inclined surface at the bottom of the water leakage inclined plate box 9, and can also be synchronously arranged on the vertical surface at the side edge of the water leakage inclined plate box 9, and drying is carried out through synchronous heating in multiple directions, so that the drying heating effect can be better, and the efficiency is better;

wherein, be provided with steam channel 7 between two swash plate casees 9 that leak and the solid material drying cabinet 2, rotate on steam channel 7's the lateral wall and be connected with the wind-guiding flabellum 14 of being connected with material upset material pivot board 17 transmission, can make to leak and form stronger air flow between swash plate case 9 and the steam channel 7, especially after heating a period, can avoid leaking the inside high temperature of swash plate case 9, drying effect influences the material quality too strongly.

Further, exhaust ports 6 are formed in the two sides of the material receiving bedplate 23 and above the steam channel 7, a distilled water condensation plate 5 with an L-shaped appearance is fixedly mounted at the top of an opening of each exhaust port 6, the distilled water condensation plates 5 on the two sides are opposite to the opening formed between the material receiving bedplate 23, a material baffle plate is arranged on the other side of each exhaust port 6, the material baffle plate extends obliquely towards the upper part of the inner side of the distilled water condensation plate 5, hot water vapor formed in the solid material drying box 2 enters the steam channel 7 through a vent plate 8 through the structure, then the hot water vapor ascends along the steam channel 7 and contacts the material baffle plate and the distilled water condensation plate 5, the hot water vapor is condensed on the surfaces of the material baffle plate and the distilled water condensation plate 5, and when needed, a worker can externally connect a heat conduction mechanism for heat dissipation outside the solid material drying box 2, at the inside arc condensation board that is connected with distillation water condensation board 5 that sets up of solid material drying cabinet 2, with the improvement heat dissipation, the efficiency of condensation, the water that condenses afterwards slides downwards along downward steam channel 7, collect in the inclined plate case 9 that leaks, form hot-blastly at the vapor condensation between material baffle and distillation water condensation board 5 simultaneously, material to adding into material port 1 weathers, this structure utilizes the rising principle of hot steam, and let its condensation release heat, dry the material, collect the water after the condensation simultaneously, realize the reuse of heat energy, can play the energy can be saved, heat recovery utilizes, the effect that the comdenstion water was collected, make processing environmental protection more.

The staff can also set up the insulating layer in the inclined plate case that leaks 9 inboards to reduce the evaporation efficiency of the inside water of inclined plate case that leaks 9.

Referring to fig. 2-3, the water-leaking inclined plate box 9 is separated from the steam channel 7 by the vent plate 8, the bottom end of the steam channel 7 and the water-leaking inclined plate box 9 form a communication structure, the front and rear sides of the vent plate 8 are both fixedly mounted on the solid material drying box 2, the surface of the vent plate 8 is provided with a plurality of vent holes 16, the vent plate 8 is rotatably connected with the fan blades 14, hot air in the water-leaking inclined plate box 9 can enter the steam channel 7 through the vent holes 16 on the side surface of the vent plate 8, and under the rotation of the fan blades 14, the hot air in the upper space of the water-leaking inclined plate box 9 is pumped out to reduce the internal temperature, in order to prevent condensed water from flowing downwards into the water-leaking inclined plate box 9 through the vent holes 16, a worker can adaptively set a flow guide strip for retaining water above the vent holes 16, the guide strips extend downwards in an inclined mode.

Referring to fig. 4-5, the axes of the opposite sides of the two material turning shaft rotating plates 17 are fixedly connected with rotating shafts 18, the tail ends of the rotating shafts 18 are fixedly connected with linkage driving wheels 19, and one side between the two linkage driving wheels 19 is rotatably connected with a linkage wheel shaft 26;

referring to fig. 7, a crown gear 28 is fixedly connected to the surface of one of the rotating shafts 18, a motor gear 29 is engaged with the side surface of the crown gear 28, and the motor gear 29 is fixedly connected with a driving motor 30 through an output shaft;

referring to fig. 3, a heat insulation end shell 13 is fixedly installed on the outer side of a driving motor 30, the heat insulation end shell 13 is fixedly installed on a driving support plate 12, the driving support plate 12 is fixedly installed between two vent plates 8, a motor gear 29 is driven to rotate by the driving motor 30, and then the motor gear 29 is meshed with a crown gear 28 and drives the crown gear 28 to rotate, when the crown gear 28 rotates, a rotating shaft 18 at one end rotates, a linkage driving wheel 19 connected to the tail end of the rotating shaft 18 also rotates along with the rotation of the rotating shaft 18, and when the linkage driving wheel 19 rotates, a linkage driving wheel shaft 26 connected to the side surface of the linkage driving wheel 19 drives a linkage driving wheel 19 at the other end to rotate, so as to realize structural linkage, thereby enabling an air guide fan blade 14 connected to the rotating shaft 18 and a material turning shaft rotating plate 17 to rotate simultaneously and driving a connection structure above the linkage wheel shaft 26 to operate, and playing a role of simplifying the whole driving structure, the power consumed by the equipment can be reduced.

Referring to fig. 4-6, a linkage rod 27 is fixedly connected to the surface of the linkage wheel shaft 26, the tail end of the linkage rod 27 is rotatably connected with a bottom plate hinge seat 33, the top end of the bottom plate hinge seat 33 is fixedly connected with a lifting plate 20, the lifting plate 20 is slidably arranged inside the material fixing drying box 2 along the vertical direction, the upper surface of the lifting plate 20 is fixedly connected with a lifting slide rod 21, the top end of the lifting slide rod 21 upwards penetrates through the material receiving bedplate 23 and is fixedly connected with the air compression plate 4, and the lifting slide rod 21 and the material receiving bedplate 23 form a sliding connection structure;

the outer side of the lifting slide bar 21 is sleeved with a spring 22, one end of the spring 22 is fixedly connected with the air compression plate 4, two sides of the air compression plate 4 are arc-shaped and extend downwards, a limiting ring can be arranged on the lifting slide bar 21 to improve the stability of the lifting slide bar 21 and the spring 22, and the two sides of the air compression plate 4 extend downwards, so that the effect of promoting air flow can be further improved, and heat can be more easily dissipated to the upper part of the material receiving platen 23;

wherein, the lifting slide bar 21 and the spacing ring can be in sleeve connection, one end of the spring 22 is fixedly connected with the spacing ring, when the lifting plate 20 moves downwards, the spacing ring is propped against the material receiving bedplate 23 to bear force, and the stress area is larger;

and when the linkage wheel shaft 26 swings along with the rotation of the linkage driving wheel 19, the linkage rod 27 connected with the linkage wheel shaft 26 also swings along with the linkage rod, so that the bottom plate hinged seat 33 connected with the linkage rod 27 pushes the lifting plate 20 to move up and down, when the lifting plate 20 moves up and down, the lifting slide rod 21 connected with the upper side of the lifting plate 20 drives the air compression plate 4 to move up and down together, meanwhile, when the air compression plate 4 moves upwards, the spring 22 is pulled, when the air compression plate 4 moves downwards, the spring 22 is compressed, when the air compression plate 4 moves upwards and downwards, a structure of compressed air is formed by matching with the structure on the material receiving bedplate 23, through the structure, the air around the air compression plate 4 is driven to flow, when the structure of the air compression plate 4 rises, the surrounding air is driven to flow to the space below the compression plate 4 by contracting air, and then the material on the material receiving bedplate 23 is driven to move, the materials are gathered to the lowest side of the material receiving bedplate 23 to be collected.

Referring to fig. 4-5, the middle of the material receiving platen 23 is recessed downward to form a groove, and the bending position of the groove is arc-shaped;

referring to fig. 4, the blanking port 24 is located the bottom surface of recess, the side fixedly connected with arc swing plate 25 of blanking port 24, the last fixed surface of recess is connected with the arc of two outside lateral buckling, the arc extends to the inboard of air compression plate 4, and the arc is symmetrical about the vertical central line of receiving the material platen 23, through concentrating the material of collecting to the blanking port 24 of receiving the material platen 23 and going out, and let the material along the inboard arc swing plate 25 whereabouts of blanking port 24, the arc on receiving the material platen 23 surface is through cooperating with compression plate 4, constitute through the pumped air, promote the structure that the air flows, both cooperate and can play the effect of concentrating the material.

Referring to fig. 2-3, a discharging channel 10 is disposed on a side surface of the end of the water leaking inclined plate box 9, a blanking box 11 is disposed under the water leaking inclined plate box 9, bottom surfaces of the water leaking inclined plate box 9 and the blanking box 11 are inclined slope surfaces, the inclination directions are opposite, a discharging port 15 is disposed on a side surface of the blanking box 11, materials roll along the surface of the water leaking inclined plate box 9, enter the blanking box 11 through the discharging channel 10, and exit from the discharging port 15 along an inclined slope of the bottom side of the blanking box 11, so that the blanking box 11 can store the materials.

Wherein, the inclined slope surface of the water leakage inclined plate box 9 is provided with a plurality of small holes, the small holes on the surface of the water leakage inclined plate box 9 are smaller than the diameter of the material, and the water leakage inclined plate box 9 and the water condensation discharge pipe 3 form a communicating structure;

referring to fig. 8, the heating wire pipes 32 are uniformly distributed on the side of the water leaking inclined plate box 9 in an S shape, heat dissipated by the heating wire pipes 32 penetrates through small holes in the surface of the water leaking inclined plate box 9, water on the surface of the water leaking inclined plate box 9 and on the surface of a material above the water leaking inclined plate box is atomized into steam through hot air, solid materials falling on the surface of the water leaking inclined plate box 9 flow into the water leaking inclined plate box 9 along the surface and the small holes of the water leaking inclined plate box 9 through water adhering pipes 3 and are discharged out through the water adhering pipes 3.

When in use: firstly, materials are poured from a feeding port 1 and enter a material baffle plate at the inner side of a distilled water condensation plate 5 through the feeding port 1, then enter a blanking port 24 on a material receiving bedplate 23 and fall along an arc-shaped swinging plate 25 in the blanking port 24, a structure of pressurized air is formed by the upward and downward movement of an air compression plate 4 through the structural cooperation with the material receiving bedplate 23, through the structure, the air around the air compression plate 4 is driven to flow, and then the surrounding materials are adsorbed and concentrated, then the materials fall into a material turning shaft rotating plate 17 at the lower part and are turned over through the material turning shaft rotating plate 17 to scatter the materials, the materials fall from a material stirring hopper groove 31 on the material turning shaft rotating plate 17 to the upper part of a water leakage inclined plate box 9, the drying treatment is carried out through a heating wire pipe 32 at the inner side of the water leakage plate box 9, and the water generated by the treatment is changed into water vapor through heating, and the guide fan blades 14 rotate to suck water vapor into the steam channel 7 from the space above the water leakage inclined plate box 9, then the water vapor ascends along the steam channel 7 and contacts with the material baffle and the distilled water condensation plate 5, the water vapor is condensed on the surfaces of the material baffle and the distilled water condensation plate 5, then the condensed water slides downwards along the downward steam channel 7 and is collected in the water leakage inclined plate box 9, meanwhile, hot air is formed between the material baffle and the distilled water condensation plate 5 after the water vapor is condensed, and the materials which are just entered are dried.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims

1. The utility model provides a drying device is used in industrial chemicals processing, includes admittedly expect drying cabinet (2), its characterized in that: a water condensing pipe (3) for discharging collected water is fixedly connected to the side face of the solid material drying box (2), a feeding port (1) is formed in the top of the solid material drying box (2), two water leakage inclined plate boxes (9) are symmetrically arranged on the inner side of the solid material drying box (2) along the vertical central line of the solid material drying box, a material stirring shaft rotating plate (17) for stirring materials is rotatably arranged in each water leakage inclined plate box (9), and a material stirring hopper groove (31) is formed in each material stirring shaft rotating plate (17);

the top parts of the two water-leaking inclined plate boxes (9) are fixedly connected with a material receiving bedplate (23) fixed on the solid material drying box (2), a material dropping opening (24) for material conveying is formed in the material receiving bedplate (23) and used for communicating the water-leaking inclined plate boxes (9) with the upper part of the material receiving bedplate (23), and an air compression plate (4) located at the material feeding port (1) is arranged at the top part of the material receiving bedplate (23);

heating wire pipes (32) for drying are arranged on the side surfaces of the two water leakage inclined plate boxes (9);

a steam channel (7) is arranged between the two water leakage inclined plate boxes (9) and the solid material drying box (2), and a fan guide blade (14) in transmission connection with the material turning shaft rotating plate (17) is rotatably connected to the side wall of the steam channel (7);

exhaust ports (6) are formed in the two sides of the material receiving bedplate (23) and above the steam channel (7), a distilled water condensation plate (5) with an L-shaped appearance is fixedly mounted at the top of an opening of each exhaust port (6), the distilled water condensation plates (5) on the two sides are opposite to an opening formed between the material receiving bedplate (23), a material baffle is arranged on the other side of each exhaust port (6), and the material baffle extends obliquely towards the upper side of the inner side of each distilled water condensation plate (5).

2. The drying device for chemical raw material processing according to claim 1, characterized in that: the steam leakage drying box is characterized in that the water leakage inclined plate box (9) is separated from the steam channel (7) through the vent plate (8), the bottom end of the steam channel (7) and the water leakage inclined plate box (9) form a communicating structure, the front side and the rear side of the vent plate (8) are fixedly mounted on the solid material drying box (2), a plurality of vent holes (16) are formed in the surface of the vent plate (8), and the vent plate (8) is rotatably connected with the air guide fan blades (14).

3. The drying device for chemical raw material processing according to claim 1, characterized in that: a rotating shaft (18) is fixedly connected to the axle centers of the opposite sides of the two material turning shaft rotating plates (17), linkage driving wheels (19) are fixedly connected to the tail ends of the rotating shafts (18), and a linkage wheel shaft (26) is rotatably connected to one side between the two linkage driving wheels (19);

a crown gear (28) is fixedly connected to the surface of one of the rotating shafts (18), a motor gear (29) is connected to the side surface of the crown gear (28) in a meshed manner, and the motor gear (29) is fixedly connected with a driving motor (30) through an output shaft;

the outside fixed mounting of driving motor (30) has thermal-insulated end shell (13), thermal-insulated end shell (13) fixed mounting is on drive backup pad (12), drive backup pad (12) fixed mounting is between two breather plates (8).

4. The drying device for chemical raw material processing according to claim 3, characterized in that: the surface of the linkage wheel shaft (26) is fixedly connected with a linkage rod (27), the tail end of the linkage rod (27) is rotatably connected with a bottom plate hinge seat (33), the top end of the bottom plate hinge seat (33) is fixedly connected with a lifting plate (20), the lifting plate (20) is arranged in the solid material drying box (2) in a sliding mode along the vertical direction, the upper surface of the lifting plate (20) is fixedly connected with a lifting slide rod (21), the top end of the lifting slide rod (21) upwards penetrates through the material receiving platform plate (23) and is fixedly connected with the air compression plate (4), and the lifting slide rod (21) and the material receiving platform plate (23) form a sliding connection structure;

the outer side of the lifting slide bar (21) is sleeved with a spring (22), one end of the spring (22) is fixedly connected with the air compression plate (4), and two sides of the air compression plate (4) extend downwards in an arc shape.

5. The drying device for chemical raw material processing according to claim 1, characterized in that: the middle part of the material receiving bedplate (23) is sunken downwards to form a groove, and the bending part of the groove is arc-shaped;

the blanking port (24) is located on the bottom surface of the groove, an arc swinging plate (25) is fixedly connected to the side surface of the blanking port (24), two arc plates bent outwards are fixedly connected to the upper surface of the groove, the arc plates extend to the inner side of the air compression plate (4), and the arc plates are symmetrical about the vertical center line of the material receiving table plate (23).

6. The drying device for chemical raw material processing according to claim 1, characterized in that: the terminal side of the inclined plate box (9) that leaks is provided with unloading passageway (10), be provided with blanking case (11) under the inclined plate box (9) that leaks, the inside bottom surface of inclined plate box (9) and blanking case (11) that leak is the slope domatic, and the incline direction is opposite, discharge gate (15) have been seted up to blanking case's (11) side.

7. The drying device for chemical raw material processing according to claim 1, characterized in that: a plurality of small holes are formed in the inclined slope surface of the water leakage inclined plate box (9), the small holes in the surface of the water leakage inclined plate box (9) are smaller than the diameter of the material, and the water leakage inclined plate box (9) and the condensed water discharge pipe (3) form a communicating structure;

the heating wire pipes (32) are evenly distributed on the side surface of the water leakage inclined plate box (9) in an S shape.