CN113080490A

CN113080490A - Steam cross-flow type drying assembly line

Info

Publication number: CN113080490A
Application number: CN202110319509.2A
Authority: CN
Inventors: 林晗辉
Original assignee: Individual
Current assignee: Nanjing Mingfa Paper Industry Co.,Ltd.
Priority date: 2021-03-25
Filing date: 2021-03-25
Publication date: 2021-07-09

Abstract

The invention discloses a steam cross-flow type drying production line, which structurally comprises a control box, a sealing plate, a flow mechanism and a support frame, wherein the lower end of the sealing plate is welded at the upper ends of the left side and the right side of the flow mechanism, the control box is embedded at the upper end of the sealing plate, the lower end of the sealing plate is arranged at the upper end of the support frame, hot air impacts and dries red dates on the surface of the red dates when passing through a rolling structure, the hot air acts on the outer side of a compression sleeve, so that extrusion plates on the inner side of a bending plate are mutually attached and compressed, meanwhile, a rotating ring rotates on the outer side of a fixed shaft to turn the red dates on the upper end of the fixed shaft, so that the temperature difference between the upper end and the lower end of the red dates is avoided, the hot air moves from the lower end of a stress plate to the inside of an impact groove, the lower end of the driven red dates is enabled to generate a gap through the dense elastic structure, and the condensed moisture is prevented from returning to the red dates again.

Description

Steam cross-flow type drying assembly line

Technical Field

The invention relates to the field of drying production lines, in particular to a steam flow-through type drying production line.

Background

The cross-flow type drying assembly line dries articles in the process of flow operation, and meanwhile hot steam is circulated, so that the heat lost in the air is reduced, the temperature inside the relatively closed drying box body is stable, and the hot steam is prevented from being easily lost in the air.

Hot steam strikes the stoving to the red date from the clearance of assembly line, because the perpendicular ascending impulsive force of hot steam is great, and the assembly line is the fretwork state, the effect that subsides of avoiding moisture stop has, thereby the impulsive force of hot steam makes the activity of upwards throwing away of lighter red date easily, turn-over is carried out to it, but the easy block of part red date is inside the assembly line of fretwork form, difficult turn-over stoving that carries out behind the block, thereby the red date of block produces the difference in temperature easily, the moisture that makes the higher vaporization of red date lower extreme temperature stops at the lower upper end surface of temperature, the drying effect of red date stoving has been reduced.

Disclosure of Invention

The invention is realized by the following technical scheme: the utility model provides a steam flow-through stoving assembly line, its structure includes control box, closing plate, flowing water mechanism, support frame, the welding of closing plate lower extreme is in flowing water mechanism left and right sides upper end, the control box inlays admittedly in the closing plate upper end, the closing plate lower extreme is installed in the support frame upper end, flowing water mechanism is equipped with fixed plate, hot-blast sprayer, drive mechanism, axis of rotation, gyration board, the axis of rotation inlays admittedly in the inside side of fixed plate, hot-blast sprayer installs in the inside side of fixed plate, hot-blast sprayer block is inboard in the middle of drive mechanism, both ends and axis of rotation outside screw-thread fit about the drive mechanism, the gyration board is located the drive mechanism upper end, the welding of closing plate lower extreme is in the fixed plate left and right sides upper end.

As a further improvement of the invention, the transmission mechanism is provided with a rolling structure, a connecting strip and a drainage plate, wherein the rolling structure is embedded and fixed on the inner side of the upper end of the drainage plate, the middle of the drainage plate is clamped and fixed on the inner side of the connecting strip, the left end and the right end of the connecting strip are in threaded fit with the outer side of the rotating shaft, the drainage plate is in a mutually perpendicular state, and the upper end and the lower end of the drainage plate are in a fillet structure.

The rolling structure is further improved by the invention and consists of a fixed plate, a rotating structure, a limiting structure, a rubber plate, a spring rod and a fixed shaft, wherein the fixed plate is connected to the left side and the right side of the rubber plate, the limiting structure is arranged at the upper end of the spring rod, the lower end of the spring rod is welded at the inner side of the lower end of the fixed plate, the fixed shaft is clamped at the inner side of the rubber plate, the rotating structure and the fixed shaft are positioned on the same central axis, the fixed plate is embedded and fixed at the inner side of the upper end of the drainage plate, and a vertical limiting.

As a further improvement of the invention, the rotating structure is provided with a circulating pipeline, a rotating ring, a bending structure and a drainage tube, the inside of the drainage tube is embedded and fixed at the outer side of the circulating pipeline, the circulating pipeline is positioned inside the rotating ring, the bending structure is arranged at the outer side of the rotating ring, the rotating ring and the fixed shaft are positioned on the same central axis, and the drainage tube is made of rubber and is of a semicircular structure.

As a further improvement of the invention, the bending structure is provided with a bending plate, an extrusion plate and a compression sleeve, the compression sleeve is attached to the outer side of the bending plate, the extrusion plate is embedded and fixed to the inner side of the bending plate, the bending plate is installed on the outer side of the rotating ring, and the compression sleeve is made of rubber and has the characteristics of large friction force and easiness in deformation.

As a further improvement of the invention, the limiting structure is provided with an elastic structure, a limiting shaft, a movable block, a stress plate and an impact groove, the lower end of the elastic structure is embedded and fixed at the upper end of the stress plate, the limiting shaft is movably matched with the movable block, the limiting shaft is welded at the outer side of the stress plate, the impact groove penetrates through the stress plate, the lower end of the stress plate is arranged at the upper end of a spring rod, a gap is formed between the limiting shaft and the left side and the right side of the movable block, and the width of the lower end of the impact groove is larger than that of the upper end of the impact groove.

As a further improvement of the invention, the elastic structure is provided with a fixed block, a rubber sleeve and a compression plate, the outer side of the fixed block is in clearance fit with the inner side of the rubber sleeve, the compression plate is clamped inside the rubber sleeve, the center points of the compression plate and the fixed block are positioned on the same central axis, the lower end of the fixed block is embedded and fixed at the upper end of a stress plate, the lower ends of the left side and the right side of the compression plate are arranged at the upper end inside the stress plate, the inner side of the rubber sleeve is of a continuous bending structure, the friction force of the outer side of the rubber sleeve is larger, and the compression plate is made of plastic and.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

1. the hot air is used for impacting and drying the red dates on the surface of the red dates when passing through the rolling structure, the hot air impacts the rotating structure in the middle when passing through the rolling structure, the hot air acts on the outer side of the compression sleeve, so that the extrusion plates on the inner sides of the bending plates are mutually attached and compressed, the side surface stress effect is achieved, the rotating ring is enabled to rotate under the stress of the outer side of the fixed shaft, meanwhile, the red dates on the upper end of the rotating ring are enabled to be turned when the rotating ring rotates on the outer side of the fixed shaft, the red dates are enabled to move towards the left side and the right side, the red.

2. Steam is from atress board lower extreme toward strikeing the inslot portion activity, atress is uneven at removal in-process atress board lower extreme left and right sides, thereby use spacing axle to slope as the central point, thereby make the red date of atress board upper end turn, both ends produce the temperature difference about avoiding the red date, the rubber sleeve outside drives the red date and produces the side power in the slope in-process, thereby the red date rolls in the rubber sleeve upper end under the air current of lower extreme impact groove, make driven red date lower extreme produce the clearance through comparatively intensive elastic construction, avoid the moisture that condenses to get back to on the red date again.

Drawings

Fig. 1 is a schematic structural diagram of a steam cross-flow type drying production line of the invention.

FIG. 2 is a schematic side view of a flow mechanism according to the present invention.

Fig. 3 is a schematic side view of a transmission mechanism according to the present invention.

Fig. 4 is a schematic side view of a tumbling structure according to the present invention.

Fig. 5 is a schematic structural diagram of a side surface of a rotating structure according to the present invention.

FIG. 6 is a schematic side view of a curved structure according to the present invention.

Fig. 7 is a schematic side view of a position limiting structure according to the present invention.

Fig. 8 is a schematic side view of an elastic structure according to the present invention.

In the figure: the device comprises a control box-1, a sealing plate-2, a water flowing mechanism-3, a support frame-4, a fixing plate-31, a hot air ejector-32, a transmission mechanism-33, a rotating shaft-34, a rotary plate-35, a rolling structure-331, a link bar-332, a flow guide plate-333, a fixing plate-a 1, a rotating structure-a 2, a limiting structure-a 3, a rubber plate-a 4, a spring rod-a 5, a fixing shaft-a 6, a circulating pipeline-a 21, a rotating ring-a 22, a bending structure-a 23, a flow guide tube-a 24, a bending plate-e 1, an extrusion plate-e 2, a compression sleeve-e 3, an elastic structure-a 31, a limiting shaft-a 32, a movable block-a 33, a stressed plate-a 34, an impact groove-a 35, a fixed block-w 1, a hot air ejector-32, rubber sleeve-w 2, compression plate-w 3.

Detailed Description

The technology of the present invention is further described with reference to the accompanying drawings:

example 1:

as shown in fig. 1-6:

the invention relates to a steam flow-through drying assembly line, which structurally comprises a control box 1, a sealing plate 2, a flow mechanism 3 and a support frame 4, wherein the lower end of the sealing plate 2 is welded at the upper ends of the left side and the right side of the flow mechanism 3, the control box 1 is embedded at the upper end of the sealing plate 2, the lower end of the sealing plate 2 is installed at the upper end of the support frame 4, the flow mechanism 3 is provided with a fixed plate 31, a hot air ejector 32, a transmission mechanism 33, a rotating shaft 34 and a rotary plate 35, the rotating shaft 34 is embedded at the inner side surface of the fixed plate 31, the hot air ejector 32 is installed at the inner side surface of the fixed plate 31, the hot air ejector 32 is clamped at the middle inner side of the transmission mechanism 33, the left end and the right end of the transmission mechanism 33 are in threaded fit with the outer side of the rotating shaft 34, the rotary, the effect of the backflow circulation is that the rotating shaft 34 inside the fixing plate 31 rotates, so that the transmission mechanism 33 performs line production, the hot air injector 32 in the middle of the transmission mechanism 33 discharges hot air, and the red date material on the upper end surface of the transmission mechanism 33 is dried.

Wherein, drive mechanism 33 is equipped with the structure 331 of rolling, links strip 332, drainage plate 333, it is inboard in drainage plate 333 upper end to roll structure 331, it is inboard at linking strip 332 to link the middle block of drainage plate 333, it is about both ends and the 34 outside screw-thread fit of axis of rotation about linking strip 332, drainage plate 333 is mutually perpendicular state, and both ends are the fillet structure from top to bottom, guide hot steam to hot gas is strikeed the stoving through the red date on roll structure 331 to its surface.

The rolling structure 331 comprises a fixed plate a1, a rotating structure a2, a limiting structure a3, a rubber plate a4, a spring rod a5 and a fixed shaft a6, the fixed plate a1 is connected to the left and right sides of the rubber plate a4, the limiting structure a3 is mounted at the upper end of the spring rod a5, the lower end of the spring rod a5 is welded inside the lower end of the fixed plate a1, the fixed shaft a6 is clamped inside the rubber plate a4, the rotating structure a2 and the fixed shaft a6 are located on the same central axis, the fixed plate a1 is embedded inside the upper end of the drainage plate 333, a vertical limiting track is arranged on the side surface of the limiting structure a3, hot air impacts the rotating structure a2 in the middle, the rubber plate a4 is bent upwards under the impact force of the rotating structure a4, so as to drive the spring rod a5 inside the lower end of the fixed plate a1 to move upwards, the limiting structure a3 is rotated on the limiting track, and moves upwards while the rotating structure a, avoid the red dates from being clamped at the left and right sides of the rotating structure a 2.

The rotating structure a2 is provided with a flow channel a21, a rotating ring a22, a bending structure a23 and a drainage tube a24, the drainage tube a24 is embedded and fixed outside the flow channel a21, the flow channel a21 is located inside the rotating ring a22, the bending structure a23 is installed outside the rotating ring a22, the rotating ring a22 and the fixed shaft a6 are located on the same central axis, the drainage tube a24 is made of rubber and is of a semicircular structure, when hot air impacts, acting force is generated on the bending structure a23 to drive the rotating ring a22 to rotate outside the fixed shaft a6, red dates are turned over in the rotating process, meanwhile, the hot air enters the flow channel a21 through the inside of the drainage tube a24 and flows outwards through the flow channel a21 under the impact force of the hot air, and red dates outside the upper end of the rotating structure a2 are dried.

The bending structure a23 is provided with a bending plate e1, a squeezing plate e2 and a compression sleeve e3, the compression sleeve e3 is attached to the outer side of the bending plate e1, the squeezing plate e2 is embedded to the inner side of the bending plate e1, the bending plate e1 is mounted to the outer side of the rotating ring a22, the compression sleeve e3 is made of rubber and has the characteristics of large friction force and easiness in deformation, hot air acts on the outer side of the compression sleeve e3, so that the squeezing plates e2 on the inner side of the bending plate e1 are attached to and compressed with each other, the side force effect is achieved, and the rotating ring a22 rotates on the outer side of the fixed shaft a6 under the force.

The embodiment has the following specific use modes and functions:

in the invention, the rotating shaft 34 at the inner side of the fixed plate 31 is rotated through the control box 1, so that the transmission mechanism 33 carries out line production, the hot air ejector 32 in the middle of the transmission mechanism 33 discharges hot air, red date materials on the surface of the upper end of the transmission mechanism 33 are dried, the hot air circulates in the rotary plate 35 at the inner side of the sealing plate 2 to avoid the overflow of the hot air, the hot air moves upwards and enters the lower end of the rolling structure 331 under the guidance of the drainage plate 333, so that the hot air impacts and dries red dates on the surface of the rolling structure 331 when passing through the rolling structure 331, the hot air impacts the rotary structure a2 in the middle and bends the rubber plate a4 upwards under the impact force, thereby driving the spring rod a5 at the inner side of the lower end of the fixed plate a1 to move upwards, enabling the limiting structure a3 to move on the limiting track, and turning the red dates at the upper end of the rotary, the red dates are prevented from being clamped on the left side and the right side of the rotating structure a2, when hot air impacts the rotating structure a2, acting force is generated on the bent structure a23, the hot air acts on the outer side of the compression sleeve e3, so that the extrusion plates e2 on the inner side of the bent plate e1 are mutually attached and compressed, the effect of lateral force is achieved, the rotating ring a22 rotates on the outer side of the fixing shaft a6 under the stress, meanwhile, the hot air enters the circulation pipeline a21 through the inner part of the drainage pipe a24 and flows outwards from the circulation pipeline a21 under the impact of the hot air, the red dates on the outer side of the upper end of the rotating structure a2 are dried, and meanwhile, when the rotating ring a22 rotates on the outer side of the fixing shaft a6, the red dates on the upper end of the rotating ring a22 are turned over, the red.

Example 2:

as shown in fig. 7-8:

wherein the limit structure a3 is provided with an elastic structure a31, a limit shaft a32, a movable block a33, a stress plate a34 and an impact groove a35, the lower end of the elastic structure a31 is embedded and fixed at the upper end of the stress plate a34, the limit shaft a32 is movably matched with the movable block a33, the limiting shaft a32 is welded on the outer side of the stress plate a34, the impact groove a35 penetrates through the inner part of the stress plate a34, the lower end of the stress plate a34 is arranged at the upper end of a spring rod a5, a gap is arranged between the limiting shaft a32 and the left side and the right side of the movable block a33, the width of the lower end of the impact groove a35 is larger than that of the upper end, hot air moves from the lower end of the stress plate a34 to the interior of the impact groove a35, in the moving process, the left side and the right side of the lower end of the stress plate a34 are unevenly stressed, so that the stress plate inclines by taking the limit shaft a32 as a central point, the inclination force is blocked by the movable block a33, therefore, the red dates at the upper end of the stress plate a34 are turned over, and the temperature difference between the upper end and the lower end of the red dates is avoided.

The elastic structure a31 is provided with a fixed block w1, a rubber sleeve w2 and a compression plate w3, the outer side of the fixed block w1 is in clearance fit with the inner side of the rubber sleeve w2, the compression plate w3 is clamped inside the rubber sleeve w2, the center points of the compression plate w3 and the fixed block w1 are located on the same central axis, the lower end of the fixed block w1 is embedded and fixed at the upper end of a stress plate a34, the lower ends of the left side and the right side of the compression plate w3 are installed at the upper end inside the stress plate a34, the inner side of the rubber sleeve w2 is of a continuous bending structure, the friction force on the outer side is large, the compression plate w3 is made of plastic and has the characteristics of strong toughness and large bending force, the outer side force is generated by driving the red dates outside the rubber sleeve w2 in the tilting process, and the rotation ring a22 presses the red dates to the limiting structure a3 when the rotation ring a3 rotates, so that the fixed block w1 of the compression plate w3 is subjected to the bending force, the lower end of the driven red dates is enabled to generate a gap through the dense elastic structure a31, and condensed moisture is prevented from returning to the red dates again.

The embodiment has the following specific use modes and functions:

according to the invention, hot air moves from the lower end of a stress plate a34 to the interior of an impact groove a35, the left side and the right side of the lower end of the stress plate a34 are unevenly stressed in the moving process, so that the stress plate inclines by taking a limiting shaft a32 as a central point, the inclination force is blocked by a movable block a33, so that red dates at the upper end of the stress plate a34 are turned over, the temperature difference between the upper end and the lower end of the red dates is avoided, the red dates are driven to generate lateral force outside a rubber sleeve w2 in the inclining process, meanwhile, the red dates are extruded to the limiting structure a3 when a22 rotates, the fixed block w1 at the inner side of a compression plate w3 is bent and stressed, so that the red dates roll at the upper end of the rubber sleeve w2 under the air flow of an impact groove a35 at the lower end, the lower end of the driven red dates generates a gap through.

The technical scheme of the invention is utilized, or a similar technical scheme is designed by a person skilled in the art based on the inspiration of the technical scheme of the invention, so that the technical effects are achieved, and the technical scheme and the method fall into the protection scope of the invention.

Claims

1. The utility model provides a steam flow-through stoving assembly line, its structure includes control box (1), closing plate (2), flowing water mechanism (3), support frame (4), the welding of closing plate (2) lower extreme is in flowing water mechanism (3) left and right sides upper end, control box (1) inlays admittedly in closing plate (2) upper end, closing plate (2) lower extreme is installed in support frame (4) upper end, its characterized in that:

the water flowing mechanism (3) is provided with a fixing plate (31), a hot air ejector (32), a transmission mechanism (33), a rotating shaft (34) and a rotary plate (35), the rotating shaft (34) is embedded and fixed on the inner side surface of the fixing plate (31), the hot air ejector (32) is installed on the inner side surface of the fixing plate (31), the hot air ejector (32) is clamped on the middle inner side of the transmission mechanism (33), the left end and the right end of the transmission mechanism (33) are in threaded fit with the outer side of the rotating shaft (34), the rotary plate (35) is located at the upper end of the transmission mechanism (33), and the lower end of the sealing plate (2) is welded at the upper ends of the.

2. The steam flow-through drying line of claim 1, wherein: drive mechanism (33) are equipped with roll structure (331), link strip (332), drainage plate (333), it is inboard in drainage plate (333) upper end to roll structure (331) inlay, the block is inboard at linking strip (332) in the middle of drainage plate (333), link strip (332) left and right sides both ends and axis of rotation (34) outside screw-thread fit.

3. The steam flow-through drying line of claim 2, wherein: roll structure (331) and constitute by fixed plate (a1), revolution mechanic (a2), limit structure (a3), rubber slab (a4), spring beam (a5), fixed axle (a6), the left and right sides at rubber slab (a4) is connected in fixed plate (a1), limit structure (a3) is installed in spring beam (a5) upper end, spring beam (a5) lower extreme welding is inboard at fixed plate (a1) lower extreme, fixed axle (a6) block is inboard at rubber slab (a4), revolution mechanic (a2) and fixed axle (a6) are located same central axis, fixed plate (a1) are inlayed and are fixed at drainage plate (333) upper end inboard.

4. A steam flow-through drying line as claimed in claim 3, wherein: the rotating structure (a2) is provided with a flow pipeline (a21), a rotating ring (a22), a bending structure (a23) and a drainage tube (a24), the drainage tube (a24) is embedded and fixed on the outer side of the flow pipeline (a21), the flow pipeline (a21) is located inside the rotating ring (a22), the bending structure (a23) is installed on the outer side of the rotating ring (a22), and the rotating ring (a22) and the fixed shaft (a6) are located on the same central axis.

5. The steam flow-through drying line of claim 4, wherein: the bending structure (a23) is provided with a bending plate (e1), a pressing plate (e2) and a compression sleeve (e3), the compression sleeve (e3) is attached to the outer side of the bending plate (e1), the pressing plate (e2) is embedded and fixed on the inner side of the bending plate (e1), and the bending plate (e1) is installed on the outer side of the rotating ring (a 22).

6. A steam flow-through drying line as claimed in claim 3, wherein: spacing structure (a3) is equipped with elastic force structure (a31), spacing axle (a32), movable block (a33), atress board (a34), strikes groove (a35), elastic force structure (a31) lower extreme is inlayed and is fixed in atress board (a34) upper end, spacing axle (a32) and movable block (a33) clearance fit, spacing axle (a32) welds in atress board (a34) outside, strike inside groove (a35) run through atress board (a34), atress board (a34) lower extreme is installed in spring beam (a5) upper end.

7. The steam flow-through drying line of claim 6, wherein: elasticity structure (a31) is equipped with fixed block (w1), rubber sleeve (w2), compression plate (w3), fixed block (w1) outside and the inboard clearance fit of rubber sleeve (w2), compression plate (w3) block is inside rubber sleeve (w2), compression plate (w3) and the central point of fixed block (w1) are located same central axis, fixed block (w1) lower extreme inlays and fixes in atress board (a34) upper end, compression plate (w3) left and right sides lower extreme is installed in the inside upper end of atress board (a 34).