CN207685416U - A kind of crosswind device for non-woven cloth - Google Patents

Abstract

The utility model is related to a kind of crosswind devices for non-woven cloth, including crosswind device body, the crosswind device body includes the ventilation shaft and air uniform plate in " n " font, the air uniform plate includes the first air uniform plate and the second air uniform plate, first air uniform plate includes left air uniform plate and right air uniform plate, relative misalignment is distributed from bottom to top for left air uniform plate and right air uniform plate, a left side for ventilation shaft, air outlet is opened up respectively on the vertical madial wall in right side, equal array adjustable section is laid with multiple cellular boards at the air outlet, using the longitudinal centre line of air outlet as the left side cellular board on boundary and right side cellular board arranged opposite, the front end of cellular board and the front end rotation connection of air outlet, the rear end of two adjacent cellular boards is mutually inserted；Inlet scoop is opened up on the laterally inboard wall of ventilation shaft, and damping layer is posted on the madial wall of ventilation shaft.The utility model is simple in structure, and cooling effect is good, can be good by adjusting cellular board position change air outlet wind speed, practicability.

Description

A kind of crosswind device for non-woven cloth

Technical field

The utility model is related to production equipment, more particularly to a kind of crosswind devices for non-woven cloth.

Background technology

Non-woven cloth is a kind of need not spin cotton and weave cloth and the fabric formed, only carries out textile staple or long filament Orientation or random alignment form fibre net structure, are then reinforced using the methods of mechanical, hot sticky or chemical；It is domestic at present non- In woven cloths production process when carrying out cooling treatment, there is no strict requirements to wind direction, wind speed, directly by air compartment to traction Filamentous high temperature fluid carry out cooling treatment, wind is directly to quasi-fluid quenching, and air outlet cannot be adjusted, and wind speed is excessive Filamentous high temperature fluid can be caused the defects of gage distortion, hole, fold occur, wind speed is too small to easily cause cooled slow, cooling effect Fruit is not up to standard, then causes the effect of non-woven cloth finished product undesirable, and commercialization value reduces.

Utility model content

In order to overcome the shortcomings of the prior art, the purpose of this utility model is to provide a kind of simple in structure, and cooling is cold But effect is good, can pass through the good crosswind device for non-woven cloth of adjusting cellular board position change air outlet wind speed, practicability.

To achieve the goals above, the technical solution of the utility model is：

A kind of crosswind device for non-woven cloth, including crosswind device body, the crosswind device body include in " n " The ventilation shaft and air uniform plate of font, the ventilation shaft are the hollow cavity formation diversion air duct of hollow cavity, ventilation shaft, Lay air uniform plate in the hollow cavity of ventilation shaft, the air uniform plate includes the first air uniform plate and the second air uniform plate, and described first For air uniform plate in corrugated, the second air uniform plate is arc-shaped, and the first air uniform plate includes left air uniform plate and right air uniform plate, left air uniform plate and the right side Air uniform plate is located on the vertical two side inside ventilation shaft, and relative misalignment divides from bottom to top for left air uniform plate and right air uniform plate Cloth opens up air outlet on the vertical madial wall of left and right side of ventilation shaft respectively, is located at air outlet pair vertical on the left of ventilation shaft Left air uniform plate is answered, is located at air outlet vertical on the right side of ventilation shaft and corresponds to right air uniform plate；Equal array adjustable section at the air outlet Multiple cellular boards are laid with, the cellular board is corrugated, using the longitudinal centre line of air outlet as the left side cellular board on boundary and the right side Side cellular board arranged opposite, the front end of cellular board and the front end rotation connection of air outlet, the rear end phase of adjacent two cellular boards Mutual grafting；Inlet scoop is opened up on the laterally inboard wall of ventilation shaft, second air uniform plate is located at the transverse direction inside ventilation shaft On two madial walls, neighbouring two the second air uniform plate relative misalignments are distributed, on the madial wall of the air outlet and inlet scoop Damping screen is uniformly set, supply air system is laid in the lower part of ventilation shaft, and air draft system, the ventilation duct are laid in the top of ventilation shaft Damping layer is posted on the madial wall in road.

Further, the rotation connection is that the front end of cellular board is laid with rubber shaft, air outlet in both sides respectively up and down Upper and lower side is recessed with axle sleeve hole, the rubber shaft and axle sleeve hole rotation connection respectively；It is described to be plugged to one of honeycomb The rear end side of plate is laid with hemispherical projections, and the rear end side of another adjacent cellular board offers hemispherical groove, institute It states protrusion and groove is mutually inserted；

Further, it is located at the rubber shaft length on the upside of the cellular board and is less than the rubber shaft being located on the downside of cellular board Length is located at the rubber shaft length on the upside of cellular board and the rubber shaft length on the downside of cellular board no more than 1cm.

Further, the height of the cellular board is not more than the height of air outlet.

Further, the supply air system includes being laid in the motor in the left and right outside of ventilation shaft and being laid in ventilation duct Fan on the vertical lateral wall of road left and right side, the fan are connected with motor, and fan is located at the downside of ventilation shaft, is located at Fan on the left of ventilation shaft on vertical lateral wall corresponds to right air uniform plate, is located on lateral wall vertical on the right side of ventilation shaft Fan corresponds to left air uniform plate.

Further, the air draft system is suction ventilator, and the aspiration channel of suction ventilator is connected with inlet scoop.

Further, the damping layer is damping sheet.

The beneficial effects of the utility model are：

The utility model carries out cooling treatment by ventilation shaft, and laying the first air uniform plate in ventilation shaft can be to air-supply Wind speed, into row buffering, makes wind at the uniform velocity blow to Filamentous high temperature fluid, avoids wind into row buffering, the second air uniform plate to the wind speed of air draught There is the defects of gage distortion, hole, fold in blow-through, and the effect and commercialization for improving finished product are worth；It is located at ventilation shaft simultaneously The vertical air outlet in left side corresponds to left air uniform plate, is located at air outlet vertical on the right side of ventilation shaft and corresponds to right air uniform plate, is blowing When, because of the presence of the first air uniform plate, so that the inside lateral distance of the air outlet Distance Ventilation pipeline in ventilation shaft is become smaller, make wind It is more easy to send out from air outlet, improves the utilization rate of air inlet, then promote the efficiency of cooling treatment；

Cellular board is laid in air outlet simultaneously, cellular board plays antihunt action, constantly shakes when wind being avoided to pass through from air outlet It is dynamic, air-supply effect is effectively ensured；Cellular board is adjustable to lay and be corrugated, corrugated cellular board to wind speed into row buffering And guide, make wind is orderly to be sent out from air outlet, can also adjust the spacing between cellular board as needed, make adjacent honeycomb Plate is connected two-by-two, and the air-supply passage spacing at air outlet center becomes larger, and wind speed becomes larger, becomes strong, accelerates the cooling effect of high temperature fluid Fruit；

Air draft system is laid on the top of ventilation shaft, accelerates cooling treatment, improves operating efficiency；It is added in ventilation shaft Damping sheet plays shockproof, noise reduction, heat-insulated effect, effectively improves the using effect and service life of ventilation shaft；This practicality is new Supply air system and outlet system of air is arranged in type, and the two operation simultaneously improves cooling effect.

Description of the drawings

Fig. 1 is a kind of structural schematic diagram of crosswind device for non-woven cloth of the utility model.

Fig. 2 is the cross section that a kind of air outlet of crosswind device for non-woven cloth of the utility model is connected with cellular board Structural schematic diagram.

Fig. 3 is the structural schematic diagram after a kind of cellular board grafting for the crosswind device of non-woven cloth of the utility model.

Fig. 4 is the front knot that a kind of air outlet of crosswind device for non-woven cloth of the utility model is connected with cellular board Structure schematic diagram.

Attached figure label is：1 is ventilation shaft, and 2 be left air uniform plate, and 3 be fan, and 4 be cellular board, and 5 be the second air uniform plate, 6 be air draft system, and 7 be inlet scoop, and 8 be damping screen, and 9 be motor, and 10 be right air uniform plate, and 11 be air outlet, and 12 be damping layer, 13 It is protrusion for groove, 14,15 be rubber shaft, and 16 be axle sleeve hole.

Specific implementation mode

The utility model is further illustrated with reference to the accompanying drawings and detailed description：

As shown in Figure 1 to 4, a kind of crosswind device for non-woven cloth, including crosswind device body, the crosswind dress It includes the ventilation shaft 1 and air uniform plate in " n " font to set ontology, and the ventilation shaft 1 is in hollow cavity, ventilation shaft 1 Cavity body forms diversion air duct, lays air uniform plate in the hollow cavity of ventilation shaft 1, the air uniform plate include the first air uniform plate and Second air uniform plate 5, first air uniform plate are in corrugated, and the second air uniform plate 5 is arc-shaped, and the first air uniform plate includes left air uniform plate 2 With right air uniform plate 10, left air uniform plate 2 and right air uniform plate 10 are located on the vertical two side inside ventilation shaft 1, left even wind Relative misalignment is distributed from bottom to top for plate 2 and right air uniform plate 10, is opened up and is sent respectively on the vertical madial wall of left and right side of ventilation shaft 1 Air port 11, the air outlet 11 vertical positioned at 1 left side of ventilation shaft correspond to left air uniform plate 2, positioned at 1 right side of ventilation shaft sending vertically Air port 11 corresponds to right air uniform plate 10；Equal array adjustable section is laid with multiple cellular boards 4, the cellular board 4 at the air outlet 11 It is corrugated, using the longitudinal centre line of air outlet 11 as 4 arranged opposite of the left side cellular board 4 on boundary and right side cellular board, cellular board 4 Front end and air outlet 11 front end rotation connection, the rear end of adjacent two cellular boards 4 is mutually inserted；The cross of ventilation shaft 1 Inlet scoop 7 is opened up on inside side wall, second air uniform plate 5 is located on laterally two madial walls inside ventilation shaft 1, up and down phase Damping screen 8 is uniformly set on the madial wall of adjacent two 5 relative misalignments of the second air uniform plate distribution, the air outlet 11 and inlet scoop 7, Supply air system is laid in the lower part of ventilation shaft 1, and air draft system 6, the inside of the ventilation shaft 1 are laid in the top of ventilation shaft 1 Damping layer 12 is posted on wall.

The rotation connection is that the front end of cellular board 4 is laid with rubber shaft 15, about 11 air outlet in both sides respectively up and down Side is recessed with axle sleeve hole 16 respectively, and the rubber shaft 15 and axle sleeve hole 16 are rotatablely connected；It is described to be plugged to one of bee Unilateral under the rear end of nest plate 4 to be laid with hemispherical projections 14, plane offers hemisphere on the rear end of another adjacent cellular board 4 Connected in star 13, described raised 14 and groove 13 be mutually inserted, rubber shaft 15 and cellular board 4 are being installed because of the elasticity of its own When can suitably compress, so that cellular board 4 is fixed at air outlet 11.

15 length of rubber shaft positioned at 4 upside of the cellular board is less than the length of rubber shaft 15 for being located at 4 downside of cellular board Degree is located at 15 length of rubber shaft on the upside of cellular board 4 and 15 length of rubber shaft on the downside of cellular board 4 no more than 1 cm。

The height of the cellular board 4 is not more than the height of air outlet 11.

The supply air system includes being laid in the motor 9 in 1 left and right outside of ventilation shaft and to be laid in ventilation shaft 1 left and right Fan 3 on the vertical lateral wall in side, the fan 3 are connected with motor 9, and fan 3 is located at the downside of ventilation shaft 1, are located at logical Fan 3 on the vertical lateral wall in 1 left side of wind pipeline corresponds to right air uniform plate 10, is located at the vertical lateral wall in 1 right side of ventilation shaft On fan 3 correspond to left air uniform plate 2.

The air draft system 6 is suction ventilator, and the aspiration channel of suction ventilator is connected with inlet scoop 7.

The damping layer 12 is damping sheet.

In wide cut non-woven cloth production operation, crosswind device body is erected on drafting system, Filamentous high temperature fluid warp Crosswind device carries out cooling treatment, i.e., carries out air-supply processing, water conservancy diversion wind of the wind in ventilation shaft 1 to ventilation shaft 1 by fan 3 Even wind processing is carried out by the first air uniform plate in road, so that wind is passed through the orderly Filamentous high temperature fluid that blows to of cellular board 4 and is cooled down Processing, in cooling treatment, can as needed be adjusted 4 angle of cellular board, that is, rotates cellular board 4, make with air outlet 4 Longitudinal centre line is the hemispherical projections 14 of 4 rear end side of the left side cellular board laying on boundary cellular board 4 rear end side adjacent with its The hemispherical groove 13 that face opens up carries out plugged and fixed；The cellular board 4 on right side carries out grafting using same steps, no longer superfluous herein It states, at this point, the air-supply passage spacing at 11 center of air outlet becomes larger, wind speed becomes larger, becomes strong, and Filamentous high-temperature stream is blowed to through air outlet 11 Body, meanwhile, the hot gas drifted upwards is absorbed through air draft system 6, and the effect of cooling treatment, hot gas is accelerated to pass through the second air uniform plate 5 Buffering be then discharged, complete crosswind cooling treatment.

The embodiment of the above, the only preferred embodiment of the utility model not limit the utility model Practical range, therefore the equivalent change or modification that all structure, feature and principles according to described in the utility model patent range are done, It should be included in present utility model application the scope of the claims.

Claims (7)

1. a kind of crosswind device for non-woven cloth, including crosswind device body, which is characterized in that the crosswind device body Ventilation shaft and air uniform plate including being in " n " font, the ventilation shaft is hollow cavity, the hollow cavity of ventilation shaft is formed Diversion air duct, the hollow cavity of ventilation shaft is interior to lay air uniform plate, and the air uniform plate includes the first air uniform plate and the second air uniform plate, First air uniform plate is in corrugated, and the second air uniform plate is arc-shaped, and the first air uniform plate includes left air uniform plate and right air uniform plate, Zuo Yun Aerofoil and right air uniform plate are located on the vertical two side inside ventilation shaft, left air uniform plate and right air uniform plate phase from bottom to top To being in staggered distribution, air outlet is opened up respectively on the vertical madial wall of left and right side of ventilation shaft, on the left of ventilation shaft vertically Air outlet corresponds to left air uniform plate, is located at air outlet vertical on the right side of ventilation shaft and corresponds to right air uniform plate；Equal battle array at the air outlet Row are adjustable to be laid with multiple cellular boards, and the cellular board is corrugated, using the longitudinal centre line of air outlet as the left side bee on boundary Nest plate and right side cellular board arranged opposite, the front end of cellular board and the front end rotation connection of air outlet, adjacent two cellular boards Rear end be mutually inserted；Inlet scoop is opened up on the laterally inboard wall of ventilation shaft, second air uniform plate is located in ventilation shaft Laterally on two madial walls of portion, neighbouring two the second air uniform plate relative misalignments distributions, the air outlet and inlet scoop Damping screen is uniformly set on madial wall, supply air system is laid in the lower part of ventilation shaft, and air draft system, institute are laid in the top of ventilation shaft It states and posts damping layer on the madial wall of ventilation shaft.

2. a kind of crosswind device for non-woven cloth according to claim 1, which is characterized in that the rotation connection is Both sides are laid with rubber shaft respectively up and down for the front end of cellular board, and air outlet is recessed with axle sleeve hole, the rubber in side respectively up and down Glue shaft and axle sleeve hole rotation connection；The rear end side for being plugged to one of cellular board is laid with hemispherical projections, phase The rear end side of another adjacent cellular board offers hemispherical groove, and the protrusion and groove are mutually inserted.

3. a kind of crosswind device for non-woven cloth according to claim 2, which is characterized in that be located at the cellular board The rubber shaft length of upside is less than the rubber shaft length being located on the downside of cellular board, and the rubber shaft being located on the upside of cellular board is long Degree and the rubber shaft length on the downside of cellular board are no more than 1cm.

4. a kind of crosswind device for non-woven cloth according to claim 1, which is characterized in that the height of the cellular board Height of the degree no more than air outlet.

5. a kind of crosswind device for non-woven cloth according to claim 1, which is characterized in that the supply air system packet The motor for being laid in the left and right outside of ventilation shaft and the fan being laid on the vertical lateral wall of ventilation shaft left and right side are included, it is described Fan is connected with motor, and fan is located at the downside of ventilation shaft, the fan being located on lateral wall vertical on the left of ventilation shaft Corresponding right air uniform plate, the fan being located on lateral wall vertical on the right side of ventilation shaft correspond to left air uniform plate.

6. a kind of crosswind device for non-woven cloth according to claim 1, which is characterized in that the air draft system is The aspiration channel of suction ventilator, suction ventilator is connected with inlet scoop.

7. a kind of crosswind device for non-woven cloth according to claim 1, which is characterized in that the damping layer is resistance Buddhist nun's plate.