CN116576646A - Snake slough powder processing is with preventing drying equipment that splashes - Google Patents

Abstract

The application discloses anti-splashing drying equipment for snake slough powder processing, and belongs to the technical field of drying equipment. A snake slough powder processing is with preventing drying equipment that splashes, including the box, install the control panel on the box; the drying mechanism is arranged on the box body and used for heating the interior of the box body; the moving mechanism is arranged in the box body and used for conveying the materials to be placed in different chambers for heating; the feeding mechanism is arranged at the top of the box body and is used for feeding the dried raw materials; the discharging mechanism is arranged inside the box body and used for discharging the processed raw materials, four groups of heaters are brought to heat different temperatures respectively, so that the temperature inside the box body is gradually increased from bottom to top, the device can be heated gradually, the subsequent processing of the raw materials is facilitated, the subsequent drying of snake slough is facilitated, and the splashing phenomenon of the snake slough is effectively avoided.

Description

Snake slough powder processing is with preventing drying equipment that splashes

Technical Field

The application relates to the technical field of drying equipment, in particular to anti-splashing drying equipment for snake slough powder processing.

Background

The snake slough powder is a traditional Chinese medicine material, also called snake skin powder, and is prepared by grinding the snake slough, wherein the snake slough is required to be dried before grinding, and the snake slough is generally assisted by drying equipment when being dried.

However, the internal temperature of the existing drying equipment is generally kept stable, and when the snake slough powder is dried, due to the fact that the moisture content is high and micro-pore channels exist in the drying equipment, after the drying equipment receives the high-temperature effect, moisture is rapidly evaporated to form expansion gas, the expansion gas can cause the internal pressure of particles to be suddenly increased, when the internal pressure is equal to or exceeds the pressure-resistant limit of the surface of the particles, the phenomena of particle separation, bursting and splashing occur, if the internal pressure is gradually increased, the whole efficiency of the equipment is low, continuous operation of the equipment cannot be carried out, the whole efficiency of the equipment is further reduced, and the drying of the snake slough powder can be completed only by the repeated feeding and discharging operation of the equipment.

Disclosure of Invention

The application aims to provide anti-splashing drying equipment for snake slough powder processing, which aims to solve the problems in the background technology.

The application provides splash-proof drying equipment for snake slough powder processing, which adopts the following technical scheme:

a snake slough powder processing is with preventing drying equipment that splashes, including the box, install the control panel on the box;

the drying mechanism is arranged on the box body and used for heating the interior of the box body;

the moving mechanism is arranged in the box body and used for conveying the materials to be placed in different chambers for heating;

the feeding mechanism is arranged at the top of the box body and is used for feeding the dried raw materials;

and the blanking mechanism is arranged inside the box body and is used for blanking the processed raw materials.

By adopting the technical scheme, the device can automatically feed and discharge materials and gradually raise the temperature so as to finish the drying operation.

Optionally, the drying mechanism includes the fan of fixed mounting at the box front end, and fixedly connected with main air-sending pipe on the air-out end of fan, fixedly connected with branch pipe on the main air-sending pipe, and the other end of branch pipe extends to the box inside, the inside all fixed mounting of branch pipe has the heater, fixed mounting has the air outlet on the opposite side of box.

By adopting the technical scheme, the device can heat the inside of the box body into different temperatures at the same time, so that drying operations with different temperatures are performed.

Optionally, the mobile mechanism includes five thermal-insulated bolsters of fixed connection in the inside five groups of box, five groups thermal-insulated bolsters evenly distributed is inside the box, and thermal-insulated bolsters and branch pipe and air outlet mutually support and form four independent heating's space, the both sides laminating at thermal-insulated bolsters top middle part, both sides all rotate through the bearing respectively and are connected with the transfer line about the box inner wall both ends, both ends the outside all fixedly connected with chain wheel of transfer line, and the outside all passes through drive chain swing joint of four groups of transfer lines at both ends respectively, both sides all fixedly connected with four groups loose axle on the one end that drive chain is close to each other, both sides all fixed connection removes the storehouse on the one end that the loose axle is close to each other.

By adopting the technical scheme, the device can separate the internal space, and then different temperatures can be obtained.

Optionally, both ends of the movable bin are arc-shaped, and the upper side of the movable bin is provided with a hole, and the upper side of the movable bin is provided with a storage cavity.

By adopting the technical scheme, the movable cabin can be tightly attached to the heat-insulating soft cushion to ensure the sealing effect when passing through the heat-insulating soft cushion.

Optionally, the downside at both ends all fixedly connected with fixed link plate around the box, both sides a set of transfer line extend to the box outside, two sets of outside and the outside both sides of transfer line all fixedly connected with belt pulley, both sides all pass through drive belt swing joint between the belt pulley, a set of fixed link plate is last to be fixedly mounted with motor, and the output shaft fixed connection of transfer line is on the transfer line.

Through adopting above-mentioned technical scheme to the work of making device accessible motor, make a set of chain wheel of both sides can rotate, and then make the drive chain of both sides rotate in step.

Optionally, feed mechanism includes the centralized chamber of fixed mounting on the box top, and the bottom fixedly connected with feed opening of centralized chamber, two sets of fixed plates of fixedly connected with respectively on the both sides on box top, both sides all fixedly connected with gag lever post on the centralized chamber, and the outside cover of gag lever post is equipped with the unloading chamber, the outside of gag lever post all overlaps and is equipped with spacing spring, and spacing spring's both ends weld respectively on fixed plate and unloading chamber, the inside upper and lower both sides of unloading intracavity are all fixedly connected with guide board.

By adopting the technical scheme, the raw materials in the blanking opening can be placed in the blanking cavity for quantitative storage, so that the follow-up feeding operation is facilitated.

Optionally, all be connected with the bull stick through the bearing rotation on the both sides of unloading chamber bottom, both sides fixedly connected with striker plate on the one end that the bull stick is close to each other, and the outside cover of bull stick is equipped with torsion spring, torsion spring's both ends weld respectively on unloading chamber and striker plate.

Through adopting above-mentioned technical scheme to make accessible striker plate rotate, make the inside raw materials of unloading chamber can carry out the ration and fall down, carry out quantitative material loading operation.

Optionally, two sets of bull stick are all fixedly connected with drive gear on the one end that keeps away from each other, and all fixedly connected with first link plate on the both sides on box top, and fixedly connected with first rack board on the first link plate, first rack board and drive gear mutually support, all fixedly connected with guide on the both sides of unloading chamber bottom is kept out the board, and guides to keep out the board and mutually support with the loose axle, unloading chamber right-hand member upside fixedly connected with auxiliary baffle.

Through adopting above-mentioned technical scheme to can drive guide butt plate and unloading chamber whole and can remove when making the accessible drive chain carry the removal storehouse in the activity, can carry out the material loading automatically through the meshing of drive gear with first rack board afterwards.

Optionally, the unloading mechanism includes the second that fixed connection links the board at both ends upside around the box inner wall, two sets of all fixedly connected with feed opening on the other end that the second links the board, the outside all fixedly connected with rotation gear of loose axle, rotation gear and second rack board mutually support, all fixedly connected with storage chamber on the inside left and right sides of box, and all be equipped with the discharge gate on the storage chamber bottom, set up the unloading guide slot mutually support with the storage chamber on the box.

Through adopting above-mentioned technical scheme to make the drive chain when driving the removal storehouse and remove, can make rotation gear and second rack board meshing, and then make the removal storehouse can rotate, thereby carry out the unloading operation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the heaters are arranged in the four groups of branch pipes independently, and the space in the box body is partitioned through the heat insulation soft cushion, so that 4 independent spaces can be formed in the box body, and the four groups of heaters are controlled by the control panel to heat different temperatures respectively, so that the temperature in the box body gradually rises from bottom to top, the device can be heated gradually, the subsequent treatment of raw materials is facilitated, the subsequent drying of snake slough is facilitated, and the splashing phenomenon of the snake slough is effectively avoided;

2. through the rotation of control dwang for four groups remove the periodic rotation of storehouse, and from bottom to top through inside the box, thereby to carrying out progressively rising temperature to the inside raw materials of removal storehouse, and can make the loose axle and the guide butt plate that remove on the storehouse of group when the drive chain is rotating and drive and remove the storehouse and remove, and then make the unloading chamber movable, and make spacing spring block the feed opening, follow-up unloading chamber continues to remove, make the striker plate rotate, and then make the inside raw materials ration of unloading chamber drop, and then make the device can carry out the material loading operation automatically, then remove the butt back when guide butt plate and loose axle, the unloading chamber can reset, follow-up drive chain continues to rotate and can make rotation gear and second rack board meshing, thereby make the removal storehouse can rotate, thereby shift out the inside stoving of removal storehouse completed raw materials, make it pass through the guide of unloading guide slot and place in the storage intracavity portion, and then make the device can carry out unloading operation automatically, the device need not to manually operate, second device whole operation can be continuous, and even unloading efficiency has been improved each time, thereby the drying device has been effective.

Drawings

FIG. 1 is a schematic view of a right side view of the present application;

FIG. 2 is a schematic side view of the present application in a side view;

FIG. 3 is a schematic perspective view of the present application in cross-section;

FIG. 4 is a schematic perspective view illustrating a hidden state of the case in FIG. 1 according to the present application;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4A according to the present application;

FIG. 6 is an enlarged schematic view of the structure of FIG. 3B according to the present application;

FIG. 7 is a schematic view of a partial perspective view of the fixing link plate of FIG. 4 according to the present application;

FIG. 8 is a schematic view of a partial perspective view of the concentrator of FIG. 4 according to the present application;

FIG. 9 is a schematic perspective view of the auxiliary baffle and spacing spring of FIG. 8 in accordance with the present application;

FIG. 10 is an enlarged schematic view of the structure of FIG. 9C in accordance with the present application;

FIG. 11 is an enlarged schematic view of the structure of FIG. 4D according to the present application;

fig. 12 is a schematic perspective view of a moving cartridge according to the present application.

The reference numerals in the figures illustrate: 111. a case; 112. a control panel; 211. a blower; 212. a main air supply pipe; 213. a branch pipe; 214. an air outlet; 311. a thermal insulation cushion; 312. a transmission rod; 313. a chain wheel; 314. a drive chain; 315. a movable shaft; 316. moving the bin; 317. fixing the connecting plate; 318. a rotating lever; 319. a belt pulley; 320. a drive belt; 321. a motor; 322. rotating the gear; 411. a concentration chamber; 412. a feed opening; 413. a fixing plate; 414. a limit rod; 415. a limit spring; 416. a blanking cavity; 417. a guide plate; 418. a rotating rod; 419. a striker plate; 420. a torsion spring; 421. a transmission gear; 422. a first connecting plate; 423. a first rack plate; 424. a guide abutment plate; 425. an auxiliary baffle; 511. a second connecting plate; 512. a second rack plate; 513. a blanking guide groove; 514. a storage cavity.

Detailed Description

The application will be described in further detail with reference to the accompanying drawings

Referring to fig. 1, the application provides a splash-proof drying device for snake slough powder processing, which comprises a box 111 and a control panel 112 arranged on the box 111;

referring to fig. 1 and 2, the drying mechanism provided by the present application is disposed on a box 111, and is used for heating the interior of the box 111, the drying mechanism includes a fan 211 fixedly installed at the front end of the box 111, and a main air-feeding pipe 212 is fixedly connected to an air-outlet end of the fan 211, a branch pipe 213 is fixedly connected to the main air-feeding pipe 212, and the other end of the branch pipe 213 extends into the interior of the box 111, and heaters are fixedly installed in the branch pipe 213, and an air outlet 214 is fixedly installed on the other side of the box 111, so that the device can heat the interior of the box 111 to different temperatures at the same time, thereby performing drying operations at different temperatures, and the control panel 112 controls the operation of the heaters and the operation temperatures thereof in the branch pipe 213, the operation of the motor 321, and the operation of the fan 211 as in the prior art, and is not a main protection object of the present application, and is not repeated;

referring to fig. 5, 5 and 7, the moving mechanism provided by the present application is disposed inside a box 111 and is used for conveying materials to be placed in different chambers for heating, the moving mechanism includes five groups of heat insulation cushions 311 fixedly connected inside the box 111, the five groups of heat insulation cushions 311 are uniformly distributed inside the box 111, the heat insulation cushions 311 are mutually matched with a branch pipe 213 and an air outlet 214 to form four independent heating spaces, the air outlet 214 is the prior art, two sides in the middle of the top end of the heat insulation cushion 311 are jointed, the upper and lower sides of the front and rear ends of the inner wall of the box 111 are respectively connected with a transmission rod 312 through bearings in a rotating manner, the outer parts of the transmission rods 312 at two ends are respectively fixedly connected with a chain wheel 313, the outer parts of the four groups of the transmission rods 312 at two ends are respectively movably connected through transmission chains 314, one end of the transmission chains 314 at two sides, which are mutually close to each other, are fixedly connected with four groups of movable shafts 315, the movable shafts 315 on both sides are fixedly connected with the movable cabin 316 at one end close to each other so that the device can separate the inner space and further make the inner space have different temperatures, both ends of the movable cabin 316 are arc-shaped, a hole is formed at the upper side of the inner part of the movable cabin 316, a storage cavity is formed at the upper side of the inner part of the movable cabin 316 so that the movable cabin 316 can closely adhere to the heat insulation cushion 311 to ensure the sealing effect when passing through the heat insulation cushion 311, the lower sides of the front and rear ends of the box 111 are fixedly connected with the fixed connecting plates 317, a group of transmission rods 312 on both sides extend to the outside of the box 111, both sides of the outside of the two groups of transmission rods 312 and both sides of the outside of the rotating rod 318 are fixedly connected with the belt pulleys 319, both sides of the belt pulleys 319 are movably connected through the transmission belt 320, a motor 321 is fixedly mounted on one group of the fixed connecting plates 317, and the output shaft of the transmission rod 312 is fixedly connected with the rotating rod 318, so that the device can work through the motor 321, a group of chain wheels 313 at two sides can rotate, and further the transmission chains 314 at two sides can synchronously rotate, so that the whole device can work through the motor 321, and the whole transmission chain 314 can rotate anticlockwise, so that the whole movable cabin 316 can move, and the movable cabin 316 can periodically move through the heat insulation cushion 311;

referring to fig. 1-10, the feeding mechanism provided by the application is arranged at the top of the box body 111 and is used for feeding dried raw materials, the feeding mechanism comprises a centralized cavity 411 fixedly arranged at the top end of the box body 111, the bottom end of the centralized cavity 411 is fixedly connected with a feed opening 412, two groups of fixed plates 413 are respectively and fixedly connected to two sides of the top end of the box body 111, a limit rod 414 is fixedly connected to each of the centralized cavities 411 on two sides, a feed cavity 416 is sleeved outside the limit rod 414, limit springs 415 are sleeved outside the limit rod 414, two ends of the limit springs 415 are respectively welded on the fixed plates 413 and the feed cavity 416, the upper side and the lower side inside the feed cavity 416 are fixedly connected with guide plates 417, so that raw materials inside the feed opening 412 can be placed inside the feed cavity 416 for quantitative storage, and thus the subsequent feeding operation is facilitated, a rotating rod 418 is connected to two sides of the bottom end of the feed cavity 416 through bearings, a stop plate 419 is fixedly connected to one end of each of the two groups of the rotating rods 418, a torsion spring 420 is sleeved outside the rotating rod 418, two ends of the torsion spring 420 are respectively sleeved on the two ends of the stop plate 416 are respectively welded on the first side of the feed cavity 416 and the two end of the lower cavity 416, the two end of the stop plate 416 are fixedly connected with a first end of the stop plate 423, the two end of the stop plate 422 is fixedly connected to the first end of the feed cavity 423 and a fixed to the end of the feed cavity 423, the end of the feed cavity is fixedly connected to the top end of the feed cavity is mutually, and the end of the feed cavity is mutually connected to the end of the feed cavity is mutually and fixed, and the end of the end is mutually opposite to the end is fixed to the end of the end is connected, so that the guide retaining plate 424 and the blanking cavity 416 can be driven to move integrally while the movable bin 316 is movably conveyed through the transmission chain 314, then feeding can be automatically performed through meshing of the transmission gear 421 and the first rack plate 423, two sides outside the auxiliary retaining plate 425 are sleeved with limiting clamping blocks, one ends, far away from each other, of the limiting clamping blocks are respectively fixedly connected to the fixing plates 413 on the two sides, the limiting clamping blocks can limit the auxiliary retaining plate 425, so that the auxiliary retaining plate 425 can be kept stable, the guide retaining plate 424 can be driven to move through rotation of the transmission chain 314 when the device works, the guide retaining plate 424 can drive the blanking cavity 416 and the auxiliary retaining plate 425 to perform periodical movement and resetting, and further subsequent automatic quantitative periodical blanking operation is completed;

referring to fig. 4 and 12, the discharging mechanism provided by the application is disposed in the box 111 and is used for discharging processed raw materials, the discharging mechanism comprises second connecting plates 511 fixedly connected to the upper sides of the front and rear ends of the inner wall of the box 111, the other ends of the two groups of second connecting plates 511 are fixedly connected with a discharging opening 412, the outside of the movable shaft 315 is fixedly connected with a rotating gear 322, the rotating gear 322 and the second rack 512 are mutually matched, the left and right sides of the inner part of the box 111 are fixedly connected with a storage cavity 514, the bottom end of the storage cavity 514 is provided with a discharging opening, the box 111 is provided with a discharging guide groove 513 mutually matched with the storage cavity 514, so that when the transmission chain 314 drives the movable bin 316 to move, the rotating gear 322 is meshed with the second rack 512, and the movable bin 316 is further rotated, so that the discharging operation is performed, and the device can automatically perform automatic discharging operation on dried raw materials when passing through the discharging mechanism.

The embodiment of the application relates to splash-proof drying equipment for snake slough powder processing, which is implemented by the following principle:

first, the raw materials to be dried may be placed inside the concentration chamber 411, and then the four sets of heaters, fans 211 and motors 321 are controlled to operate by the control panel 112, and when the heaters and fans 211 operate, the inside of the cavity formed by the heat insulation cushion 311 and the case 111 may be heated.

When the motor 321 works, the rotating rod 318 can be driven to rotate, so that the rotating rod 318 drives a group of transmission rods 312 on two sides to rotate through the belt pulley 319 and the transmission belt 320, a group of chain wheels 313 can rotate, when a group of chain wheels 313 rotate, the transmission chain 314 can be driven to integrally rotate, when the transmission chain 314 rotates, the movable shaft 315 and the movable bin 316 can be driven to move, when the movable bin 316 moves to the top end, the movable shaft 315 on the group of movable bin 316 is abutted with the guide retaining plate 424, the guide retaining plate 424 can move to the left side, when the guide retaining plate 424 moves, the blanking cavity 416 can be driven to move, the limiting spring 415 can be extruded, then the blanking cavity 416 continues to move, the auxiliary retaining plate 425 can block the blanking port 412, then when the auxiliary retaining plate 425 continues to move, the transmission gear 421 can be meshed with the first toothed plate 423, and then the transmission gear 421 rotates anticlockwise, when the transmission gear 421 rotates anticlockwise, the striker plate 419 rotates anticlockwise, so that the blanking cavity 416 is opened, the torsion spring 420 deforms, raw materials in the blanking cavity 416 fall into the group of moving cabins 316, then the blanking cavity 416 and the guide retaining plate 424 continue to move, the transmission gear 421 is disengaged from the transmission gear 421, so that the torsion spring 420 returns to deform to drive the striker plate 419 to reset, then the moving cabin 316 continues to move, the moving cabin 316 releases the abutting with the guide retaining plate 424, so that the limit spring 415 returns to deform to drive the blanking cavity 416, raw materials in the concentrated cavity 411 fall into the blanking cavity 416 again, and then the follow-up moving cabin 316 and the movable shaft 315 continue to move to abut with the guide retaining plate 424, thereby feeding again.

The transmission chain 314 then continues to move to enable the movable bin 316 to enter the bottom of the box 111, the movable bin 316 can be enabled to enter the box 111, the movable bin 316 is enabled to abut against the heat insulation soft cushion 311, the top end of the heat insulation soft cushion 311 is enabled to deform, a group of movable bin 316 enters the space formed by the group of heat insulation soft cushion 311 to perform primary drying operation, the group of movable bin 316 sequentially passes through the five groups of heat insulation soft cushion 311 to complete drying operation and moves out of the heat insulation soft cushion 311 at the top, the heat insulation soft cushion 311 is enabled to recover deformation when the movable bin 316 moves out, the fit state is maintained, the transmission chain 314 continues to move after the drying operation is completed, the rotating gears 322 at the two sides of the group of movable bin 316 are meshed with the second rack plates 512 at the two sides, the group of the rotating gears 322 are enabled to rotate, the movable bin 316 can be driven to rotate when the rotating gears 322 rotate, raw materials which are dried inside the group of the movable bin 316 are enabled to be poured out, the raw materials which are enabled to be placed inside the storage cavity 514 to be accommodated through the guide of the top heat insulation soft cushion 311 and the blanking 513, and the transmission chain 314 can periodically rotate, and the drying operation is enabled to be performed periodically.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (9)

1. A snake slough powder processing is with preventing drying equipment that splashes which characterized in that includes:

a box body (111) and a control panel (112) arranged on the box body (111);

the drying mechanism is arranged on the box body (111) and is used for heating the interior of the box body (111);

the moving mechanism is arranged in the box body (111) and is used for conveying materials to be placed in different chambers for heating;

the feeding mechanism is arranged at the top of the box body (111) and is used for feeding the dried raw materials;

and the blanking mechanism is arranged inside the box body (111) and is used for blanking the processed raw materials.

2. The snake slough powder processing anti-splash drying device according to claim 1, wherein: the drying mechanism comprises a fan (211) fixedly arranged at the front end of the box body (111), a main air supply pipe (212) is fixedly connected to the air outlet end of the fan (211), a branch pipe (213) is fixedly connected to the main air supply pipe (212), the other end of the branch pipe (213) extends into the box body (111), heaters are fixedly arranged in the branch pipe (213), and an air outlet (214) is fixedly arranged on the other side of the box body (111).

3. The snake slough powder processing anti-splash drying device according to claim 1, wherein: the moving mechanism comprises five groups of heat insulation cushions (311) fixedly connected inside a box body (111), the five groups of heat insulation cushions (311) are uniformly distributed inside the box body (111), the heat insulation cushions (311) are mutually matched with a branch pipe (213) and an air outlet (214) to form four independent heating spaces, two sides at the middle part of the top end of the heat insulation cushions (311) are attached, the upper side and the lower side of the front end and the rear end of the inner wall of the box body (111) are respectively connected with a transmission rod (312) through bearings in a rotating mode, two ends of the upper side and the lower side of the inner wall of the box body are respectively fixedly connected with chain wheels (313), the four groups of the outer sides of the transmission rods (312) are respectively connected with movable shafts (315) through transmission chains (314), two sides of the transmission chains (314) are respectively connected with four groups of movable shafts (315) through rotating shafts in a movable mode, and two sides of the movable shafts (315) are respectively connected with movable bins (316) at one ends which are mutually close to each other.

4. A snake slough powder processing anti-splash drying device according to claim 3, wherein: both ends of the movable bin (316) are arc-shaped, holes are formed in the upper side of the inside of the movable bin (316), and a storage cavity is formed in the upper side of the inside of the movable bin (316).

5. The snake slough powder processing anti-splash drying device according to claim 1, wherein: the utility model discloses a box, including box (111) and fixed link board (317) are all fixedly connected with to the downside at both ends around box (111), both sides a set of transfer line (312) extend to box (111) outside, two sets of transfer line (312) outside and the outside both sides of dwang (318) all fixedly connected with belt pulley (319), both sides all pass through drive belt (320) swing joint between belt pulley (319), a set of fixed link board (317) are last fixed mounting has motor (321), and the output shaft fixed connection of transfer line (312) is on dwang (318).

6. The snake slough powder processing anti-splash drying device according to claim 1, wherein: the feeding mechanism comprises a centralized cavity (411) fixedly installed at the top end of a box body (111), a discharging opening (412) is fixedly connected to the bottom end of the centralized cavity (411), two groups of fixing plates (413) are fixedly connected to two sides of the top end of the box body (111), limiting rods (414) are fixedly connected to the centralized cavity (411) on two sides, discharging cavities (416) are sleeved outside the limiting rods (414), limiting springs (415) are sleeved outside the limiting rods (414), two ends of each limiting spring (415) are welded to the fixing plates (413) and the discharging cavities (416) respectively, and guide plates (417) are fixedly connected to the upper side and the lower side of the inside of each discharging cavity (416).

7. The snake slough powder processing anti-splash drying device according to claim 6, wherein: the two sides of the bottom end of the blanking cavity (416) are rotatably connected with rotating rods (418) through bearings, the two sides of the two sides are fixedly connected with baffle plates (419) at the ends, close to each other, of the rotating rods (418), torsion springs (420) are sleeved outside the rotating rods (418), and two ends of each torsion spring (420) are welded on the blanking cavity (416) and the baffle plates (419) respectively.

8. The snake slough powder processing anti-splash drying device according to claim 7, wherein: two sets of bull stick (418) all fixedly connected with drive gear (421) on the one end that keeps away from each other, and all fixedly connected with first link (422) on the both sides on box (111) top, and fixedly connected with first rack board (423) on first link (422), first rack board (423) and drive gear (421) cooperate each other, all fixedly connected with guide butt plate (424) on the both sides of unloading chamber (416) bottom, and guide butt plate (424) cooperate each other with loose axle (315), unloading chamber (416) right-hand member upside fixedly connected with auxiliary baffle (425).

9. The snake slough powder processing anti-splash drying device according to claim 8, wherein: the blanking mechanism comprises a second connecting plate (511) fixedly connected to the upper sides of the front end and the rear end of the inner wall of the box body (111), two groups of blanking holes (412) are fixedly connected to the other ends of the second connecting plates (511), rotating gears (322) are fixedly connected to the outer parts of the movable shafts (315), the rotating gears (322) and the second rack plates (512) are matched with each other, material storage cavities (514) are fixedly connected to the left side and the right side of the inner part of the box body (111), discharge holes are formed in the bottom ends of the material storage cavities (514), and blanking guide grooves (513) matched with the material storage cavities (514) are formed in the box body (111).