CN211084689U - Drying equipment is used in anhydrous sodium acetate production - Google Patents

Abstract

The utility model discloses a drying device for producing anhydrous sodium acetate, which comprises a hot air cylinder, a gas transmission pipe network and a drying box; the hot air cylinder is a horizontal sealed cylinder, and the interior of the hot air cylinder is divided into a heating area, a drying area and an air outlet area by two groups of partition boards at intervals; the gas transmission pipe network comprises a main pipe hermetically communicated with the air outlet area, and a first branch pipe, a second branch pipe and a third branch pipe which are sequentially communicated along the length direction of the main pipe; the drying box comprises a feeding cylinder, a horizontal cylinder and a discharging box which are communicated from top to bottom, the outer wall of the feeding cylinder is wound with an annular pipe, the annular pipe is communicated with the first branch pipe in a sealing mode, the feeding cylinder is provided with a plurality of groups of gas transmission nozzles which are uniformly distributed and penetrate through the cylinder wall of the feeding cylinder, a rotating shaft and an impeller are arranged in the horizontal cylinder, the impeller is of a star-shaped structure, a conical groove between every two blades of the impeller is a material cavity, and the tail ends of the second branch pipe and the third branch pipe are inserted. Utility model utilizes star type rotation defeated material structure and hot-blast structure with drying equipment, passes the material in-process at the rotation and carries out hot air drying, need not the stirring for the drying is even.

Description

Drying equipment is used in anhydrous sodium acetate production

Technical Field

The utility model belongs to the technical field of the drying of anhydrous sodium acetate, concretely relates to drying equipment is used in anhydrous sodium acetate production.

Background

The anhydrous sodium acetate is colorless transparent crystals or white particles, and is an essential process for drying in the production process, and the existing drying equipment adopts a mode of heating while stirring, so that the mode is difficult to continuously operate, and the drying effect is not good due to nonuniform heating.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects and the difficult problems in the prior art, the utility model aims at providing a drying device for producing anhydrous sodium acetate.

The utility model discloses a following technical scheme realizes:

a drying device for producing anhydrous sodium acetate comprises a hot air cylinder, a gas transmission pipe network and a drying box; the hot air cylinder is a horizontal sealed cylinder, the interior of the hot air cylinder is divided into a heating area, a drying area and an air outlet area by two groups of partition plates at intervals, the partition plates are provided with through ventilation openings, the heating area is communicated with an external air inlet pipe in a sealing way, an air inlet fan is installed on the air inlet pipe, a heating pipe is arranged in the heating area, and a moisture absorption screen plate is arranged in the drying area; the gas transmission pipe network comprises a main pipe hermetically communicated with the air outlet area, and a first branch pipe, a second branch pipe and a third branch pipe which are sequentially communicated along the length direction of the main pipe; the drying cabinet includes the feeding section of thick bamboo of top-down intercommunication, the section of thick bamboo crouches, go out the workbin, the outer wall winding ring canal of feeding section of thick bamboo, the ring canal is with the sealed intercommunication of first branch pipe, the feeding section of thick bamboo is equipped with a plurality of groups evenly distributed and runs through the gas transmission shower nozzle of its section of thick bamboo wall, the one end and the sealed intercommunication of first branch pipe of gas transmission shower nozzle, the other end sprays steam towards the feeding section of thick bamboo, establish the rotation axis in the crouching section of thick bamboo and encircle and fix the impeller on the rotation axis, the impeller is star type structure, the taper groove between its two liang of.

Furthermore, a cone hopper-shaped material guide plate is arranged in the middle of the feeding cylinder.

Furthermore, a check valve is arranged at the end of the main pipe close to the air outlet area; the first branch pipe, the second branch pipe and the third branch pipe are all provided with air blowers for providing power for hot air transmission.

Furthermore, the joints of the second branch pipe, the third branch pipe and the horizontal cylinder are all positioned on the material conveying side of the horizontal cylinder.

Further, steam ports are arranged on the opposite side of the material conveying side of the horizontal barrel and the top of the material feeding barrel.

Furthermore, the ring pipe is arranged obliquely relative to the cross section of the feeding cylinder, and the ring pipe is inclined downwards from the joint of the ring pipe and the first branch pipe to the opposite side of the ring pipe.

Compared with the prior art, the utility model discloses beneficial effect includes:

(1) the utility model discloses utilize the star type to rotate defeated material structure and hot-blast structure with drying equipment, pass the material in-process to carry out hot air drying rotating, need not the stirring for dry even, pivoted impeller can drive hot-blast flowing in a section of thick bamboo simultaneously.

(2) The utility model discloses a gas after heating and drying heats, utilizes the mobility of gas to make heating range wider, more even, efficiency is higher.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the top view structure of the feeding cylinder of the present invention.

Illustration of the drawings: 100-hot gas cylinder, 101-heating zone, 102-drying zone, 103-air outlet zone, 104-partition board, 105-moisture absorption screen board, 106-heating pipe, 107-air inlet pipe, 108-air inlet machine, 109-ventilation opening, 200-air transmission pipe network, 201-main pipe, 202-first branch pipe, 203-second branch pipe, 204-third branch pipe, 205-check valve, 206-blower, 300-drying box, 301-feeding cylinder, 302-horizontal cylinder, 303-discharging box, 305-loop pipe, 306-air transmission nozzle, 307-guide plate, 308-rotating shaft, 309-impeller and 310-steam port.

In the description of the present invention, the terms "center", "upper", "lower", "left", "right", "vertical", "mouth level", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, integrally connected; can be mechanical connection and electrical connection; may be directly connected, indirectly connected through intervening agents, or may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood to be specific to those skilled in the art.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 and 2, the drying equipment for anhydrous sodium acetate production comprises a hot gas cylinder 100 for heating gas, a gas transmission pipe network 200 for transmitting hot gas, and a drying oven 300 for drying anhydrous sodium acetate.

The hot air cylinder 100 is a horizontal sealed cylinder, the interior of the hot air cylinder is divided into a heating area 101, a drying area 102 and an air outlet area 103 by two groups of partition plates 104 at intervals, a through ventilation opening 109 is arranged on each partition plate 104, the heating area 101 is communicated with an external air inlet pipe 107 in a sealing mode, an air inlet fan 108 is arranged on each air inlet pipe 107, a heating pipe 106 is arranged in the heating area 101 and used for heating entering air, and a moisture absorption screen plate 105 is arranged in the drying area 102 and used for absorbing water vapor in the air to dry hot air, so that the subsequent drying effect is optimized.

The gas transmission pipe network 200 comprises a main pipe 201 hermetically communicated with the air outlet area 103, and a first branch pipe 202, a second branch pipe 203 and a third branch pipe 204 which are sequentially communicated along the length direction of the main pipe 201, and hot air supplies air to the drying box 300 through the main pipe 201, the first branch pipe 202, the second branch pipe 203 and the third branch pipe 204, so that the drying purpose is realized. The main pipe 201 is provided with a check valve 205 near the air outlet area 103 to prevent the reverse flow of hot air, and the first branch pipe 202, the second branch pipe 203 and the third branch pipe 204 are all provided with a blower 206 for providing power for hot air transmission.

The drying box 300 comprises a feeding cylinder 301, a horizontal cylinder 302 and a discharging box 303 which are communicated from top to bottom, wherein the outer wall of the feeding cylinder 301 is wound with an annular pipe 305, the annular pipe 305 is communicated with a first branch pipe 202 in a sealing manner, the feeding cylinder 301 is provided with a plurality of groups of gas transmission nozzles 306 which are uniformly distributed and penetrate through the cylinder wall of the feeding cylinder 301, one end of each gas transmission nozzle 306 is communicated with the first branch pipe 202 in a sealing manner, and the other end of each gas transmission nozzle 306 sprays hot gas towards the feeding cylinder 301; the rotating shaft 308 and the impeller 309 fixed on the rotating shaft 308 in the horizontal cylinder 302 in a surrounding manner are arranged, the impeller 309 is of a star-shaped structure, a taper groove between every two blades of the impeller is a material cavity when anhydrous sodium acetate is unloaded, the impeller is driven to fall into the discharging box 303 along with the rotation of the rotating shaft 308, the second branch pipe 203 and the tail end of the third branch pipe 204 are inserted into the horizontal cylinder 302, the connecting part of the second branch pipe 203 and the third branch pipe 204 with the horizontal cylinder 302 is located on the conveying side of the horizontal cylinder 302, as shown in fig. 1, the rotating shaft 308 is in a clockwise direction, the right side in the horizontal cylinder 302 is a conveying side, materials in specific implementation rotate along with the rotating shaft 308, move from the right side to the lower side and fall into the discharging box 303 through a discharging port on the lower side. Steam ports 310 for discharging water vapor are formed on the opposite side of the delivery side of the horizontal cylinder 302 and the top of the feed cylinder 301.

In a preferred structure, the ring pipe 305 is arranged obliquely relative to the cross section of the feed cylinder 301, and the ring pipe 305 is inclined downwards from the joint of the ring pipe 305 and the first branch pipe 202 to the opposite side of the ring pipe, so that the hot air of the feed cylinder 301 covers a larger range from top to bottom.

In specific implementation, the utility model discloses still include rotation axis 308 actuating system and accessory to and the supporting system of power of heating pipe 106, the pan feeding pipe of feed cylinder 3014, the row of ejection of compact case 303 expect the pipe etc. and the structure, the constitution of above-mentioned system, connect all belong to conventional setting, the utility model discloses do not explain in detail.

The foregoing merely illustrates preferred embodiments of the present invention, which are described in considerable detail and detail, but are not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several changes, modifications and substitutions can be made, which are all within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (6)

1. The utility model provides a drying equipment is used in anhydrous sodium acetate production which characterized in that: comprises a hot air cylinder, an air transmission pipe network and a drying box; the hot air cylinder is a horizontal sealed cylinder, the interior of the hot air cylinder is divided into a heating area, a drying area and an air outlet area by two groups of partition plates at intervals, a through ventilation opening is formed in each partition plate, the heating area is communicated with an external air inlet pipe in a sealing mode, an air inlet fan is installed on each air inlet pipe, a heating pipe is arranged in the heating area, and a moisture absorption screen plate is arranged in the drying area; the gas transmission pipe network comprises a main pipe hermetically communicated with the air outlet area, and a first branch pipe, a second branch pipe and a third branch pipe which are sequentially communicated along the length direction of the main pipe; the drying box comprises a feeding cylinder, a horizontal cylinder and a discharging box which are communicated from top to bottom, wherein the outer wall of the feeding cylinder is wound with an annular pipe, the annular pipe is communicated with the first branch pipe in a sealing mode, the feeding cylinder is provided with a plurality of groups of gas transmission nozzles which are uniformly distributed and penetrate through the wall of the feeding cylinder, one end of each gas transmission nozzle is communicated with the first branch pipe in a sealing mode, the other end of each gas transmission nozzle faces the feeding cylinder to spray hot gas, a rotating shaft is arranged in the horizontal cylinder and an impeller fixed on the rotating shaft in a surrounding mode, the impeller is of a star-shaped structure, a conical groove between every two blades of the impeller is a material cavity, and the tail ends of the second.

2. The drying apparatus for anhydrous sodium acetate production according to claim 1, characterized in that: and a cone hopper-shaped material guide plate is arranged in the middle of the feeding cylinder.

3. The drying apparatus for anhydrous sodium acetate production according to claim 1, characterized in that: the main pipe is provided with a check valve close to the air outlet area end; and blowers are arranged on the first branch pipe, the second branch pipe and the third branch pipe.

4. The drying apparatus for anhydrous sodium acetate production according to claim 1, characterized in that: the joints of the second branch pipe, the third branch pipe and the horizontal cylinder are all positioned on the conveying side of the horizontal cylinder.

5. The drying apparatus for anhydrous sodium acetate production according to claim 4, characterized in that: steam ports are formed in the opposite side of the material conveying side of the horizontal cylinder and the top of the material feeding cylinder.

6. The drying apparatus for anhydrous sodium acetate production according to claim 1, characterized in that: the ring pipe is obliquely arranged relative to the cross section of the feeding cylinder, and the ring pipe is obliquely downwards inclined from the joint of the ring pipe and the first branch pipe to the opposite side of the ring pipe.

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