CN212058185U - Refined white granulated sugar drying system - Google Patents

Abstract

The utility model discloses a refined white granulated sugar drying system, which comprises a body, a drying conveying plate, a drying vibration component, a screening vibration component, a drying sliding component, a screening sliding component and a screening plate, wherein the hot air component and a cooling fan are arranged on the body, the body is divided into a drying chamber and a screening chamber through a partition plate, the hot air component is communicated with the drying chamber, the cooling air component is communicated with the screening chamber, the drying chamber is communicated with the screening chamber through a material guide channel, the drying conveying plate is arranged in the drying chamber, the lower side of one end of the drying conveying plate is provided with the drying sliding component, the drying vibration component is arranged below the drying sliding component and is contacted with the drying sliding component, the other end of the drying conveying plate is hinged with the inner wall of the drying chamber, the screening plate is arranged in the screening chamber, the lower side of one end of the screening plate is provided with the screening sliding component, the other end of the screening plate is hinged with the inner wall of the screening chamber. The utility model discloses reduce the wearing and tearing to refined white sugar, improve dry cooling effect.

Description

Refined white granulated sugar drying system

Technical Field

The utility model relates to a sugaring technical field specifically is a refined white sugar drying system.

Background

After being separated by a honey separator, the white granulated sugar is directly sent to a packaging room by a vibration conveyer for packaging. If the packaging temperature is higher, the moisture content of the white granulated sugar is higher, and as a result, the white granulated sugar is easy to cake and is easy to discolor during storage. Therefore, the refined white granulated sugar needs to be dried and cooled before being packaged, so that the moisture content in the sugar is reduced to the requirement of the process standard, and the storage quality of the refined white granulated sugar is improved. The prior shoveling plate type drying and cooling machine in the market turns up the white granulated sugar by using a shoveling plate, and the white granulated sugar is abraded by the severe collision between the shoveling plate and the white granulated sugar, so that a large amount of powdered sugar is produced, and the produced powdered sugar cannot be screened.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the shortcoming of above-mentioned prior art, providing a reducible wearing and tearing to refined white sugar, improve the refined white sugar drying system of dry cooling effect.

The utility model discloses a realize through following technical scheme: a refined white granulated sugar drying system comprises a body, a hot air assembly, a cooling air assembly, a drying conveying plate, a drying vibration assembly, a screening vibration assembly, a drying sliding assembly, a screening sliding assembly and a screening plate, wherein the hot air assembly and a cooling fan are arranged on the body, the body is divided into a drying chamber and a screening chamber through a partition plate, the hot air assembly is communicated with the drying chamber, the cooling air assembly is communicated with the screening chamber, a feed inlet and a steam outlet are arranged on the drying chamber, a discharge outlet is arranged on the screening chamber, the drying chamber is communicated with the screening chamber through a material guide channel, the drying conveying plate is arranged in the drying chamber, the drying sliding assembly is arranged on the lower side of one end of the drying conveying plate, the drying vibration assembly is arranged below the drying sliding assembly and is in contact with the drying sliding assembly, and the other end of the drying conveying plate is hinged with the inner wall of the drying chamber, screening board sets up screening is indoor, screening board one end downside is provided with screening sliding component, screening vibration subassembly sets up screening sliding component below and rather than the contact, the screening board other end is articulated with screening indoor wall.

Further: the drying sliding assembly comprises a first sliding groove, a first connecting block, a first sliding block and a first spring, the first sliding groove is formed in the inner wall of the drying chamber, the first sliding block is arranged in the first sliding groove, the first sliding block is connected with the first connecting block, the first spring is arranged on the first connecting block, the first spring is connected with the lower side of one end of the drying conveying plate, and the first connecting block is located above the drying vibration assembly and is in contact with the drying vibration assembly.

Further: screening sliding assembly includes second spout, second connecting block, second slider, second spring, the second spout sets up the inner wall of screening room, the second slider sets up in the second spout, the second slider with the second connecting block is connected, the second spring sets up on the second connecting block, just the second spring with screening board one end downside is connected, the second connecting block is located screening vibration subassembly top and rather than the contact.

Further: dry vibration subassembly and screening vibration subassembly include motor, action wheel, drive belt, follower, axis of rotation, cam respectively, the motor sets up on the mounting panel, the mounting panel with the interior wall connection of body, the output shaft of motor with the action wheel is connected, follower and cam suit are in the axis of rotation, the drive belt suit is in on action wheel and the follower, first connecting block, second connecting block are located the cam top and rather than contact.

Further: the powder storage plate is arranged below the screening plate, a storage groove is formed in the powder storage plate, and two sides of the powder storage plate are connected with the inner wall of the body through sliding rails respectively.

Further: the hot-blast subassembly includes fan, total air-supply line, branch tuber pipe, be provided with the heater strip on the total air-supply line, total air-supply line with the fan is connected, branch tuber pipe with total air-supply line intercommunication, branch tuber pipe stretches into in the drying chamber.

Further: the cooling air assembly comprises a cooling fan and a cooling air pipe, the cooling fan is connected with the cooling air pipe, and the cooling air pipe is communicated with the inside of the screening chamber.

Further: and the main air inlet pipe and the cooling air pipe are respectively provided with a screen.

The utility model has the advantages that

Compared with the prior art, it makes refined white sugar by throwing to drive the shake of dry delivery board through dry vibration subassembly and dry sliding subassembly mutually supporting, make it abundant and hot-blast contact, improve the drying effect of refined white sugar, it makes the refined white sugar after the drying to be thrown to drive the shake of screening board through screening vibration subassembly and screening sliding subassembly mutually supporting, make it fully contact with the air and improve the cooling effect, dry delivery board and screening board are thrown the white sugar through the shake, not only can improve the dry cooling effect of white sugar, and reducible collision wear to white sugar, and the shake of screening board can be with sieving to the hold up tank of powder storage board on because of a small amount of powdered sugar that the collision between the white sugar produced, slide rail and body inner wall are passed through to powder storage board both sides, be convenient for pull out the powder storage board from this body.

Drawings

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

Description of reference numerals: 1-body, 11-partition board, 12-drying chamber, 13-sieving chamber, 14-feeding inlet, 15-steam outlet, 16-discharging outlet, 17-guide channel, 2-drying conveying board, 3-sieving board, 41-first chute, 42-first connecting block, 43-first slide block, 44-first spring, 51-second chute, 52-second connecting block, 53-second slide block, 54-second spring, 61-motor, 62-driving wheel, 63-driving belt, 64-driven wheel, 65-rotating shaft, 66-cam, 67-mounting plate, 7-powder storage board, 71-sliding rail, 81-fan, 82-total air inlet pipe, 83-minute, 84-heating wire, 91-cooling fan, 92-cooling air pipe and 93-screen.

Detailed Description

FIG. 1 is a schematic structural diagram of an embodiment of a refined white granulated sugar drying system provided by the present invention, which includes a main body 1, a hot air assembly, a cooling air assembly, a drying conveying plate 2, a drying vibration assembly, a screening vibration assembly, a drying sliding assembly, a screening sliding assembly, and a screening plate 3, wherein the hot air assembly and a cooling fan are disposed on the main body 1, the main body 1 is divided into a drying chamber 12 and a screening chamber 13 by a partition plate 11, the hot air assembly is communicated with the drying chamber 12, the cooling air assembly is communicated with the screening chamber 13, the drying chamber 12 is provided with a steam outlet 15 at a feed inlet 14, the screening chamber 13 is provided with a discharge outlet 16, the drying chamber 12 is communicated with the screening chamber 13 by a material guide channel 17, the drying conveying plate 2 is disposed in the drying chamber 12, the drying sliding assembly is disposed at a lower side of one end of the drying conveying plate 2, the drying vibration assembly is disposed below the, the other end of the drying conveying plate 2 is hinged to the inner wall of the drying chamber 12, the screening plate 3 is arranged in the screening chamber 13, a screening sliding assembly is arranged on the lower side of one end of the screening plate 3, the screening vibration assembly is arranged below the screening sliding assembly and is in contact with the screening sliding assembly, and the other end of the screening plate 3 is hinged to the inner wall of the screening chamber 13. The drying and conveying plate 2 is inclined in the direction of the material guide channel 17 and the screening plate 3 is inclined in the direction of the material outlet 16.

The drying sliding assembly comprises a first sliding chute 41, a first connecting block 42, a first sliding block 43 and a first spring 44, wherein the first sliding chute 41 is arranged on the inner wall of the drying chamber 12, the first sliding block 43 is arranged in the first sliding chute 41, the first sliding block 43 is connected with the first connecting block 42, the first spring 44 is arranged on the first connecting block 43, the first spring 44 is connected with the lower side of one end of the drying conveying plate 2, and the first connecting block 42 is positioned above the drying vibration assembly and is in contact with the drying vibration assembly.

Screening sliding assembly includes second spout 51, second connecting block 52, second slider 53, second spring 54, and second spout 51 sets up the inner wall at screening chamber 13, and second slider 53 sets up in second spout 51, and second slider 53 is connected with second connecting block 52, and second spring 54 sets up on second connecting block 52, and second spring 54 is connected with screening board 3 one end downside, and second connecting block 52 is located screening vibration subassembly top and rather than the contact.

Drying vibration subassembly and screening vibration subassembly include motor 61, drive wheel 62, drive belt 63, follower 64, axis of rotation 65, cam 66 respectively, motor 61 sets up on mounting panel 67, mounting panel 67 and body 1's inner wall connection, motor 61's output shaft is connected with drive wheel 62, follower 64 and cam 66 suit are on axis of rotation 65, drive belt 63 suit is on drive wheel 62 and follower 64, first connecting block 42, second connecting block 52 are located the cam 66 top and contact with it.

The below of screening board 3 is provided with powder storage board 7, is provided with the hold up tank on the powder storage board 7, and powder storage board 7 both sides are connected with body 1 inner wall through slide rail 71 respectively.

The hot air component comprises a fan 81, a main air inlet pipe 82 and a sub air inlet pipe 83, a heating wire 84 is arranged on the main air inlet pipe 82, the main air inlet pipe 82 is connected with the fan 81, the sub air inlet pipe 83 is communicated with the main air inlet pipe 82, the sub air inlet pipe 83 extends into the drying chamber 12, the cooling air component comprises a cooling fan 91 and a cooling air pipe 92, the cooling fan 91 is connected with the cooling air pipe 92, the cooling air pipe 92 is communicated with the sieving chamber 13, and screens 93 are respectively arranged in the main air inlet pipe 82 and the cooling air pipe 92.

When the drying and screening device works, refined white granulated sugar is thrown into the drying and conveying plate 2 of the drying chamber 12 from the feeding hole 14, the fan 81 is started, air is filtered by the screen 93 and then heated by the heating wire 84, and then enters the drying chamber 12 from the branch air inlet pipe 83, the driving wheel 62 is driven to rotate by the starting motor 61, the driving wheel 62 drives the driven wheel 64 to rotate through the transmission belt 63, the driven wheel 64 drives the rotating shaft 65 to rotate, the cam 66 rotates along with the rotating shaft 65 and pushes the first connecting block 42 to drive the first sliding block 43 to reciprocate up and down along the first sliding groove 41 so as to drive the drying and conveying plate 2 to shake, the dried and conveying plate 2 shakes so that the refined white granulated sugar is thrown up and shaken forward to the material guide channel 17, then enters the screening chamber 13, the motor 61 drives the driving wheel 62 to rotate, the driving wheel 62 drives the driven wheel 64 to rotate through the transmission belt 63, the driven wheel 64 drives the rotating shaft 65 to rotate, the cam 66 rotates along with The separating plate 3 shakes, the screening plate 3 shakes to enable the dried refined white granulated sugar to be thrown up and shake forwards to a discharge port 16 to be discharged, the cooling fan 91 works when the refined white granulated sugar is conveyed by the screening plate 3, air enters the screening chamber 13 from the cooling air pipe 92 after being filtered by the screen 93 to cool the refined white granulated sugar, and a small amount of powdered sugar generated by collision falls on a storage tank of the powder storage plate 7 after being screened by the screening plate 3 in the shaking process of the screening plate 3.

Through dry vibration subassembly and dry sliding subassembly mutually support and drive the shake of dry conveyer plate 2 and make refined white sugar thrown up, make it fully contact with hot-blast, improve the drying effect of refined white sugar, through screening vibration subassembly and screening sliding subassembly mutually support and drive the shake of screening board 3 and make the refined white sugar after the drying thrown up, make it fully contact with the air and improve cooling effect, dry conveyer plate 2 and screening board 3 throw up the white sugar through the shake, not only can improve the dry cooling effect of white sugar, and reducible collision wear to white sugar, and screening board 3 shake can be with sieving to the hold up tank of powder storage board 7 on because of the collision production between the white sugar a small amount of powdered sugar, slide rail 71 and body 1 inner wall are passed through to powder storage board 7 both sides, be convenient for pull out powder storage board 7 from body 1.

The above detailed description is specific to possible embodiments of the present invention, and the embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention should be included within the scope of the present invention.

Claims (8)

1. A refined white granulated sugar drying system which is characterized in that: comprises a body, a hot air component, a cooling air component, a drying conveying plate, a drying vibration component, a screening vibration component, a drying sliding component, a screening sliding component and a screening plate, wherein the hot air component and a cooling fan are arranged on the body, the body is divided into a drying chamber and a screening chamber through a partition plate, the hot air component is communicated with the drying chamber, the cooling air component is communicated with the screening chamber, a feed inlet and a steam outlet are arranged on the drying chamber, a discharge outlet is arranged on the screening chamber, the drying chamber is communicated with the screening chamber through a material guide channel, the drying conveying plate is arranged in the drying chamber, the drying sliding component is arranged at the lower side of one end of the drying conveying plate, the drying vibration component is arranged below the drying sliding component and is in contact with the drying sliding component, and the other end of the drying conveying plate is hinged with the inner wall of the drying chamber, screening board sets up screening is indoor, screening board one end downside is provided with screening sliding component, screening vibration subassembly sets up screening sliding component below and rather than the contact, the screening board other end is articulated with screening indoor wall.

2. The refined white granulated sugar drying system of claim 1, wherein: the drying sliding assembly comprises a first sliding groove, a first connecting block, a first sliding block and a first spring, the first sliding groove is formed in the inner wall of the drying chamber, the first sliding block is arranged in the first sliding groove, the first sliding block is connected with the first connecting block, the first spring is arranged on the first connecting block, the first spring is connected with the lower side of one end of the drying conveying plate, and the first connecting block is located above the drying vibration assembly and is in contact with the drying vibration assembly.

3. The refined white granulated sugar drying system of claim 2, wherein: screening sliding assembly includes second spout, second connecting block, second slider, second spring, the second spout sets up the inner wall of screening room, the second slider sets up in the second spout, the second slider with the second connecting block is connected, the second spring sets up on the second connecting block, just the second spring with screening board one end downside is connected, the second connecting block is located screening vibration subassembly top and rather than the contact.

4. The refined white granulated sugar drying system of claim 3, wherein: dry vibration subassembly and screening vibration subassembly include motor, action wheel, drive belt, follower, axis of rotation, cam respectively, the motor sets up on the mounting panel, the mounting panel with the interior wall connection of body, the output shaft of motor with the action wheel is connected, follower and cam suit are in the axis of rotation, the drive belt suit is in on action wheel and the follower, first connecting block, second connecting block are located the cam top and rather than contact.

5. The refined white granulated sugar drying system of claim 4, wherein: the powder storage plate is arranged below the screening plate, a storage groove is formed in the powder storage plate, and two sides of the powder storage plate are connected with the inner wall of the body through sliding rails respectively.

6. The refined white granulated sugar drying system of claim 5, wherein: the hot-blast subassembly includes fan, total air-supply line, branch tuber pipe, be provided with the heater strip on the total air-supply line, total air-supply line with the fan is connected, branch tuber pipe with total air-supply line intercommunication, branch tuber pipe stretches into in the drying chamber.

7. The refined white granulated sugar drying system of claim 6, wherein: the cooling air assembly comprises a cooling fan and a cooling air pipe, the cooling fan is connected with the cooling air pipe, and the cooling air pipe is communicated with the inside of the screening chamber.

8. The refined white granulated sugar drying system of claim 7, wherein: and the main air inlet pipe and the cooling air pipe are respectively provided with a screen.

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