CN214172844U - High-efficient transport mechanism in tunnel type drying machine - Google Patents

Abstract

The utility model relates to a tunnel type desiccator field relates to a high-efficient transport mechanism in tunnel type desiccator, the utility model discloses a: the tunnel type dryer comprises a feed inlet, a discharge outlet, an upper layer conveying belt net, a lower layer conveying belt net, a fixed baffle, a movable baffle and a material guide plate, wherein the feed inlet is formed in the left end of the upper layer conveying belt net, the discharge outlet is formed in the right end of the lower layer conveying belt net, the fixed baffle is arranged on two sides of the upper layer conveying belt net and the lower layer conveying belt net, the movable baffle is arranged at the right end between the upper layer conveying belt net and the lower layer conveying belt net, and the upper end of the material guide plate is arranged on the right side of the movable baffle; the aperture of upper conveyer belt net is a, the aperture of lower floor's conveyer belt net is b, satisfies a < b, makes the stoving product can select different ejection of compact number of piles according to the product characteristic through adjustable fender, through adopting different aperture conveyer belt nets, makes different size products dry simultaneously, improves the air permeability and reduces the desiccator energy consumption of drying.

Description

High-efficient transport mechanism in tunnel type drying machine

Technical Field

The utility model relates to a tunnel type desiccator field relates to a high-efficient transport mechanism in tunnel type desiccator.

Background

The inside conveying mesh belt of current tunnel type desiccator adopts fixed mesh, and every layer of mesh size is all the same, and the size of product is more single in the stoving in-process, can not dry the product that size difference is too big, and the energy consumption is extravagant great when drying the granule product moreover.

In conclusion, in order to overcome the defects in the prior art, the efficient transfer mechanism in the tunnel dryer, which has a simple structure, can dry different sizes at the same time and has low energy consumption, needs to be designed.

Disclosure of Invention

The utility model provides a solve prior art's problem, provide a high-efficient transport mechanism in tunnel type desiccator.

The purpose of the utility model can be realized by the following technical proposal: a high-efficient transport mechanism in tunnel dryer includes: the tunnel type dryer comprises a feed inlet, a discharge outlet, an upper layer conveying belt net, a lower layer conveying belt net, a fixed baffle, a movable baffle and a guide plate, wherein the feed inlet is formed in the left end of the uppermost layer conveying belt net, the discharge outlet is formed in the right end of the lowermost layer conveying belt net, the fixed baffle is arranged on two sides of the upper layer conveying belt net and the lower layer conveying belt net, the fixed baffle is used for conveying products downwards, the movable baffle is arranged at the right end between the upper layer conveying belt net and the lower layer conveying belt net, the upper end of the guide plate is arranged on the right side of the movable baffle, and the lower end of the guide plate is arranged above the discharge outlet;

the aperture of the upper layer conveyer belt net is a, the aperture of the lower layer conveyer belt net is b, and a is more than b.

In a further improvement, the number of the upper layer conveying belt nets is set to be 3 groups, and the number of the lower layer conveying belt nets is set to be 4 groups.

In a further improvement, a baffle plate is arranged above the material guide plate.

In a further improvement, the aperture a of the upper layer conveyer belt net is 2cm, and the aperture b of the lower layer conveyer belt net is 4 cm.

In a further improvement, the included angle formed by the fixed baffle and the horizontal plane is 45 degrees.

Compared with the prior art, the high-efficiency transfer mechanism in the tunnel dryer of the utility model can select different discharging layers according to the product characteristics of the dried product through the movable baffle, thereby further reducing the drying energy consumption of the dryer; by adopting the upper layer conveyer belt net with the small aperture at the upper part and the lower layer conveyer belt net with the large aperture at the lower part, the size selection range of the dried product is larger, the ventilation is improved, and the drying energy consumption of the dryer is reduced.

Drawings

FIG. 1 is the structure schematic diagram of the seven-layer drying discharge of the utility model

FIG. 2 is the structure schematic diagram of the three-layer drying discharge of the utility model

FIG. 3 is a schematic structural view of an upper layer conveying belt net in the present invention

FIG. 4 is a schematic structural view of a lower conveyer belt net of the present invention

In the figure, 1-tunnel type dryer, 11-feeding port, 12-discharging port, 13-upper layer conveyer belt net, 14-lower layer conveyer belt net, 15-fixed baffle, 16-movable baffle, 161-rotating handle, 17-material guide plate and 171-baffle.

Detailed Description

The technical solution of the present invention is further explained below with reference to the following embodiments and accompanying drawings 1 to 4.

Example 1

The tunnel type drying machine comprises a tunnel type drying machine 1, wherein the tunnel type drying machine 1 comprises a feeding hole 11, a discharging hole 12, an upper layer conveying belt net 13, a lower layer conveying belt net 14, a fixed baffle 15, a movable baffle 16 and a material guide plate 17, the feeding hole 11 is arranged at the left end of the upper layer conveying belt net 13 at the uppermost layer, the discharging hole 12 is arranged at the right end of the lower layer conveying belt net 14 at the lowermost layer, the fixed baffle 15 is arranged at two sides of the upper layer conveying belt net 13 and the lower layer conveying belt net 14, the fixed baffle 15 is used for downwards conveying products, the movable baffle 16 is arranged at the right end between the upper layer conveying belt net 13 and the lower layer conveying belt net 14, the upper end of the material guide plate 17 is arranged at the right side of the movable baffle 16, and the lower end of the material guide plate 17 is arranged above the discharging hole 12;

the aperture of the upper layer conveying belt net 13 is a, the aperture of the lower layer conveying belt net 14 is b, and a is more than b.

To adopting not unidimensional conveyer belt mesh aperture in tunnel type desiccator 1, adjustable fender 16 locates the right-hand member between upper conveyer belt net 13 and lower floor's conveyer belt net 14, as shown in fig. 2, through the rotation handle 161 that control adjustable fender 16 links to each other, link to each other adjustable fender 16 with stock guide 17, the back is dried to the upper conveyer belt net 13 successive layer in aperture for the tiny particle product, through stock guide 17 transportation to discharge gate 12, tiny particle product drying time is short, need not to remove to the lower floor's conveyer belt net 14 and the ejection of compact of lower floor from the upper conveyer belt net 13 of the superiors, the desiccator energy consumption has been reduced.

As shown in fig. 1, the movable baffle 16 is rotated inwards by controlling the rotating handle 161 connected with the movable baffle 16, so that large-particle products are moved from the upper layer conveying belt net 13 to the lower layer conveying belt net 14 to be dried continuously, the large-particle products with longer drying time are dried by the lower layer conveying belt net 14 and then discharged, the aperture of the lower layer conveying belt net 14 is larger, the hot air flow is larger, and the drying effect of the large-particle products below is improved.

The drying energy consumption of the dryer is further reduced by selecting different discharging layers of the dried product according to the product characteristics through the movable baffle 16; by adopting the upper layer conveyer belt net 13 with small aperture at the upper part and the lower layer conveyer belt net 14 with large aperture at the lower part, the size selection range of the dried product is larger, the ventilation is improved, and the drying energy consumption of the dryer is reduced.

Example 2

The number of the upper layer conveying belt nets 13 is set to be 3 groups, and the number of the lower layer conveying belt nets 14 is set to be 4 groups. As shown in fig. 1 and 2, the drying effect of small particle products is ensured by the three upper layers of the conveyer belt nets 13, the drying effect of large particle products is ensured by the three upper layers of the conveyer belt nets 13 and the four lower layers of the conveyer belt nets 14, and particles with different sizes are enabled to have good drying effect in the tunnel type drying machine with fixed size.

Example 3

A baffle 171 is arranged above the material guide plate 17. As shown in fig. 1 and 2, the baffle 171 is fixed to the outer end of the tunnel dryer 1, the baffle 171 is parallel to the guide plate 17, and the products transferred through the movable baffle 16 can be discharged evenly and uniformly along the guide plate 17 through the baffle 171 without being accumulated.

Example 4

The aperture a of the upper layer conveyor net 13 is 2cm, and the aperture b of the lower layer conveyor net 14 is 4 cm. As shown in fig. 3 and 4, the aperture of 2cm of the upper layer conveying belt net 13 prevents small granular products with similar sizes from falling from the hole, and the appropriate aperture of 2cm reduces energy consumption while ensuring better hot air flow circulation efficiency, so that the products are dried more quickly; the 4cm aperture of the lower layer conveying belt net 14 prevents large particle products with similar sizes from falling from the apertures, and the 4cm aperture is suitable for ensuring better hot air flow circulation efficiency and reducing energy consumption, so that the products can be dried more quickly.

Example 5

The angle formed by the fixed baffle 15 and the horizontal plane is 45 degrees. As shown in fig. 1, the fixed baffle 15 with an inclination angle of 45 ° enables the product to fall rapidly in the transferring process, and the product is not stacked, so that the transferring efficiency and the drying effect are improved.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (5)

1. The utility model provides a high-efficient transport mechanism in tunnel dryer, includes tunnel dryer (1), its characterized in that, tunnel dryer (1) includes feed inlet (11), discharge gate (12), upper conveyer belt net (13), lower floor conveyer belt net (14), fixed stop (15), adjustable fender (16) and stock guide (17), upper conveyer belt net (13) left end of superiors is located in feed inlet (11), lower floor conveyer belt net (14) right-hand member of lower floor is located in discharge gate (12), fixed stop (15) are located the both sides of upper conveyer belt net (13) and lower floor conveyer belt net (14), fixed stop (15) are used for transporting the product downwards, right-hand member between upper conveyer belt net (13) and lower floor conveyer belt net (14) is located in adjustable fender (16) right side in adjustable fender (17) upper end, the lower end of the material guide plate (17) is arranged above the discharge hole (12);

the aperture of the upper layer conveying belt net (13) is a, the aperture of the lower layer conveying belt net (14) is b, and a is more than b.

2. The high-efficiency transfer mechanism in the tunnel dryer according to claim 1, wherein the number of the upper layer conveyor nets (13) is set to 3 groups, and the number of the lower layer conveyor nets (14) is set to 4 groups.

3. The high-efficiency transfer mechanism in the tunnel dryer as claimed in claim 1, wherein a baffle plate (171) is arranged above the material guide plate (17).

4. The high-efficiency transfer mechanism in the tunnel dryer according to claim 1, wherein the aperture a of the upper layer conveyor net (13) is 2cm, and the aperture b of the lower layer conveyor net (14) is 4 cm.

5. The high-efficiency transfer mechanism in the tunnel dryer according to claim 1, wherein the angle between the fixed baffle (15) and the horizontal plane is 45 °.

Images