CN211084777U - Air cooler for hard cotton production line - Google Patents

Abstract

The utility model discloses an air-cooler for cotton production line of stereoplasm, including frame, transport mechanism and cold wind system set up transport mechanism in the frame transport mechanism's top and below set up the cold wind system, transport mechanism includes upper wall board and lower wallboard, and lower wallboard is fixed in the frame, the upper wall board sets up in the wallboard top down, connects elevating system above the upper wall board, and elevating system installs in the frame, and the symmetry sets up a plurality of recesses on the opposite face of upper wall board and lower wallboard, installs the bearing roller in every recess, the cold wind system includes the last wind channel of induced drafting and the way of blowing down, and the last wind channel of induced drafting sets up in the bearing roller top, and the way of blowing down sets up in the bearing roller below. The utility model discloses an air-cooler reciprocates by elevating system pulling top wall board and realizes cooling off the raw and other materials of different thickness, and the updraft channel has formed the circulation system that blows updraft down with the lower air channel of blowing, can fully dispel the heat fast to the product.

Description

Air cooler for hard cotton production line

Technical Field

The utility model relates to the technical field of mechanical equipment, in particular to air-cooler is used to cotton production line of stereoplasm.

Background

The hard cotton is a sponge substitute product of polyester fiber material with higher hardness. The product has the advantages of strong air permeability, high deformation resilience rate, heat preservation, noise reduction, firmness, durability and easy processing. The product has long service life, is not rotten, can resist the corrosion of various microorganisms, fungi, acid, salt and hydrocarbon, is nontoxic and tasteless, does not release any harmful substances such as formaldehyde and the like, and has strong ageing resistance, wear resistance and water washing resistance. No auxiliary agent or adhesive is added in the production process, so that the product has no pollution, the surface of the raw material fiber has an organic antioxidant function, the material is also regenerated fiber and can be recycled, and the product is also an environment-friendly product.

The production process of the hard cotton mainly comprises the procedures of proportioning, lapping, drying, cooling and rolling, the temperature of the cotton is higher after the drying procedure is finished, if the effect of coiling is not influenced by the cooling of a cooling device, the pressing effect of the cotton after drying and pressing can be further stabilized by the cooling process, the produced hard cotton is ensured to be uniform in thickness and higher in strength, therefore, the cooling step is very important in the production process of the hard cotton, and a cooling device for efficiently and quickly cooling the hard cotton needs to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a to the product abundant heat dissipation, the radiating time is shorter to the cotton production line of stereoplasm air-cooler that efficiency is higher

In order to achieve the purpose, the utility model provides an air cooler for a hard cotton production line, which comprises a frame, a conveying mechanism and a cold air system, wherein the conveying mechanism is arranged on the frame, the cold air system is arranged above and below the conveying mechanism, the conveying mechanism comprises an upper wallboard and a lower wallboard, the lower wallboard is fixed on the frame, the upper wallboard is arranged above the lower wallboard, a lifting mechanism is connected above the upper wallboard, the lifting mechanism is arranged on the frame, a plurality of grooves are symmetrically arranged on the opposite surfaces of the upper wallboard and the lower wallboard, a carrier roller is arranged in each groove, the cold air system comprises an upper air suction channel and a lower air suction channel, the upper air suction channel is arranged above the carrier roller, the lower air suction channel is arranged below the carrier roller, one end of an outlet of the upper air suction channel is connected with a lifting hose, the other end of the lifting hose is connected with a suction fan, the suction fan is driven by an air suction motor, the blower is driven by a blower motor. The utility model discloses an air-cooler is used to cotton production line of stereoplasm reciprocates by elevating system pulling top wall board and realizes cooling off the raw and other materials of different thickness, and the updraft channel has formed the circulation system that blows the updraft down with lower air-blowing channel, can fully dispel the heat fast to the product.

The lifting mechanism comprises a lifting turbine box, the lifting turbine box is driven by a lifting turbine motor, the lower end of the lifting turbine box is connected with a lifting connecting rod, and the lower end of the lifting connecting rod is fixed at the upper end of the upper wallboard.

Preferably, two lower wall boards are arranged in parallel on the rack, an upper wall board is arranged above each corresponding lower wall board, a carrier roller is arranged in each groove of the upper wall board and the lower wall board through a bearing seat, two rows of carrier rollers are arranged in parallel, two ends of the carrier roller are arranged on the upper wall board or the lower wall board, a plurality of lifting turbine boxes are arranged on the rack, a lifting connecting rod shaft is connected between the two lifting turbine boxes, and the two lifting turbine boxes are driven by a lifting turbine motor.

Furthermore, a cold water roller is arranged on one side of the lower wall plate, which is positioned at the material inlet, and a cold water roller is correspondingly arranged on the upper wall plate above the lower wall plate; the cold water roller is arranged into a hollow pipeline, one end of the cold water roller is arranged into a water inlet, the other end of the cold water roller is arranged into a water outlet, and the cold water roller is driven by a motor to rotate; mesh plates are arranged between the air channels of the upper air suction channel and the lower air blowing channel; two upper air suction channels are arranged above the carrier roller in parallel, and two lower air blowing channels are arranged below the carrier roller in parallel. The pair of cold water rollers further improves the cooling effect, the mesh plate enables the air blowing and air suction amount to be uniform, and the two groups of lower blowing and upper suction circulating systems form certain convection, so that the cooling effect and the efficiency are improved.

Two upper air suction channels are arranged above the carrier roller in parallel, two lower air blowing channels are arranged below the carrier roller in parallel, the upper air suction channels and the lower air blowing channels are located on the same vertical surface, the lower air blowing channels blow air from one end, the upper air suction channels suck air from the other end, and the other upper air suction channels and the lower air blowing channels on the same vertical surface are opposite in direction.

The suction fan, the air suction motor, the blower, the blowing motor, the lifting turbine box, the lifting turbine motor and the like are all arranged above the frame.

The carrier roller is driven by a motor or a mesh belt type conveying belt is arranged on the carrier roller, and the carrier roller is also hollow.

The utility model discloses an air-cooler is used to cotton production line of stereoplasm, theory of operation and transmission as follows: the air cooler is mainly used together with a drying room and is arranged at a net outlet of the drying room, the lifting turbine motor on the top surface of the air cooler controls the lifting turbine in the lifting turbine box to pull the upper wall plate to move up and down to cool raw materials with different thicknesses, two opposite lifting turbines are synchronized by the connecting rod shaft, the raw materials can have a large amount of heat to move on a carrier roller after coming out of the drying room, a blower motor on the top of the air cooler drives a blower to suck air, then the air is blown out by the blower and enters a lower blowing channel through a lower blowing interface to cool the raw materials, however, the heat dissipated by the surface of the raw materials and the heat blown by the lower blowing channel also enter an air suction interface through an upper air suction channel and then is sucked by a suction fan, finally, the air is blown out by a suction fan to form a circulating system for blowing down and sucking up, and the secondary air, and the upper and lower cold water rollers are used for cooling, so that the product is fully cooled, the heat dissipation time is shorter, and the efficiency is higher.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a top view of the present invention;

fig. 3 is a left side view of the present invention;

fig. 4 is a schematic structural view of the upper wall plate of the present invention;

fig. 5 is a schematic structural view of the lower wall plate of the present invention;

fig. 6 is a front view of the lower air blowing passage of the present invention;

fig. 7 is a top view of the lower air blowing passage of the present invention;

fig. 8 is a left side view of the lower air blowing duct of the present invention;

FIG. 9 is a schematic structural view of the water cooling roller of the present invention;

the device comprises a frame, a top wall plate, a bottom wall plate, a roller, a lifting turbine box, a lifting turbine motor, a lifting connecting rod shaft, a lifting air channel, a lifting hose, a suction fan, a suction motor, a suction fan, a blower, a blowing motor, a cold water roller and a mesh plate, wherein the frame is 1-arranged, the top wall plate is 2-arranged, the bottom wall plate is 3-arranged, the roller is 4-arranged, the lifting turbine box is 5-arranged, the lifting.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in the figures, the air cooler for the hard cotton production line of the utility model comprises a frame 1, a conveying mechanism and a cold air system, wherein the conveying mechanism is arranged on the frame 1, the cold air system is arranged above and below the conveying mechanism, the conveying mechanism comprises an upper wall plate 2 and a lower wall plate 3, the lower wall plate 3 is fixed on the frame 1, the upper wall plate 2 is arranged above the lower wall plate 3, a lifting mechanism is connected above the upper wall plate 2, the lifting mechanism is arranged on the frame 1, a plurality of grooves are symmetrically arranged on the opposite surfaces of the upper wall plate 2 and the lower wall plate 3, a carrier roller 4 is arranged in each groove, the cold air system comprises an upper air suction channel 9 and a lower air suction channel 10, the upper air suction channel 9 is arranged above the carrier roller 4, the lower air suction channel 10 is arranged below the carrier roller 4, one end of the outlet of the upper air suction channel 9 is connected with a lifting hose 11, the other end, the suction fan 12 is driven by a suction motor 13, the lower blowing passage 10 is connected to a blower 14 through a pipe, and the blower 14 is driven by a blower motor 15.

Wherein elevating system includes lift turbine case 5, lift turbine case 5 is driven by lift turbine motor 6, connects lifting connecting rod 7 at 5 lower extremes of lift turbine case, the 7 lower extremes of lifting connecting rod are fixed in 3 upper ends of top wall board.

Preferably, two lower wall boards 3 are arranged on the frame 1 in parallel, an upper wall board 2 is arranged above each corresponding lower wall board 3, a carrier roller 4 is arranged in each groove of the upper wall board 2 and the lower wall board 3 through a bearing seat, two rows of carrier rollers 4 are arranged in parallel, two ends of the carrier roller 4 are arranged on the upper wall board 2 or the lower wall board 3, a plurality of lifting turbine boxes 5 are arranged on the frame 1, a lifting connecting rod shaft 8 is connected between the two lifting turbine boxes 5, and the two lifting turbine boxes 5 are driven by a lifting turbine motor 6.

Furthermore, a cold water roller 16 is arranged on the lower wall plate 3 at one side of the material inlet, and a cold water roller 16 is correspondingly arranged on the upper wall plate 2 above the lower wall plate; the cold water roller 16 is a hollow pipeline, one end of the cold water roller is provided with a water inlet, the other end of the cold water roller is provided with a water outlet, and the cold water roller 16 is driven by a motor to rotate; mesh plates 17 are arranged between the air channels of the upper air suction channel 9 and the lower air blowing channel 10; two upper air suction channels 9 are arranged above the carrier roller 4 in parallel, and two lower air blowing channels 10 are arranged below the carrier roller 4 in parallel.

The utility model discloses an air-cooler is used to cotton production line of stereoplasm reciprocates by elevating system pulling top wall board and realizes cooling off the raw and other materials of different thickness, and the updraft channel has formed the circulation system that blows the updraft down with lower air-blowing channel, can fully dispel the heat fast to the product.

The pair of cold water rollers further improves the cooling effect, the mesh plate enables the air blowing and air suction amount to be uniform, and the two groups of lower blowing and upper suction circulating systems form certain convection, so that the cooling effect and the efficiency are improved.

Two upper air suction channels are arranged above the carrier roller in parallel, two lower air blowing channels are arranged below the carrier roller in parallel, the upper air suction channels and the lower air blowing channels are located on the same vertical surface, the lower air blowing channels blow air from one end, the upper air suction channels suck air from the other end, and the other upper air suction channels and the lower air blowing channels on the same vertical surface are opposite in direction.

The suction fan, the air suction motor, the blower, the air blowing motor, the lifting turbine box, the lifting turbine motor and the like are arranged above the rack, and the connecting rod shaft sleeves are arranged at the joints of the two ends of the lifting connecting rod shaft and the turbine shaft of the lifting turbine box, so that the two opposite lifting turbines are better ensured to be synchronized by the connecting rod shaft.

The upper wall plate and the lower wall plate are both provided with through holes, so that an upper air suction channel is conveniently connected to a suction fan, and a lower air blowing channel is connected to a blower; the upper wallboard is also provided with a sliding block above the cold water roller, and the sliding block can drive the upper cold water roller to move up and down, so that the independent distance adjustment of the pair of cold water rollers is realized.

The carrier roller is driven by a motor or a mesh belt type conveying belt is arranged on the carrier roller, and the carrier roller is also hollow.

The utility model discloses an air-cooler is used to cotton production line of stereoplasm, theory of operation and transmission as follows: the air cooler is mainly used together with a drying room and is arranged at a net outlet of the drying room, the lifting turbine motor on the top surface of the air cooler controls the lifting turbine in the lifting turbine box to pull the upper wall plate to move up and down to cool raw materials with different thicknesses, two opposite lifting turbines are synchronized by the connecting rod shaft, the raw materials can have a large amount of heat to move on a carrier roller after coming out of the drying room, a blower motor on the top of the air cooler drives a blower to suck air, then the air is blown out by the blower and enters a lower blowing channel through a lower blowing interface to cool the raw materials, however, the heat dissipated by the surface of the raw materials and the heat blown by the lower blowing channel also enter an air suction interface through an upper air suction channel and then is sucked by a suction fan, finally, the air is blown out by a suction fan to form a circulating system for blowing down and sucking up, and the secondary air, and the upper and lower cold water rollers are used for cooling, so that the product is fully cooled, the heat dissipation time is shorter, and the efficiency is higher.

Claims (7)

1. The utility model provides an air-cooler for cotton production line of stereoplasm which characterized in that: including frame, transport mechanism and cold wind system set up transport mechanism in the frame transport mechanism's top and below set up the cold wind system, transport mechanism includes wallboard and lower wallboard, and lower wallboard is fixed in the frame, the wallboard sets up in wallboard top down, connects elevating system in the wallboard top, and elevating system installs in the frame, and the symmetry sets up a plurality of recesses on the opposite face of wallboard and lower wallboard, installs the bearing roller in every recess, the cold wind system includes air suction duct and lower air suction duct, and upper air suction duct sets up in the bearing roller top, and lower air suction duct sets up in the bearing roller below, and upper air suction duct outlet one end is connected with the lift hose, and the suction fan is connected to the lift hose other end, and the suction fan is driven by the motor that induced drafts, and lower air suction duct passes through the pipeline and connects the hair-dryer, and the hair-dryer is driven by the motor.

2. The air cooler for the hard cotton production line of claim 1, wherein: the lifting mechanism comprises a lifting turbine box, the lifting turbine box is driven by a lifting turbine motor, the lower end of the lifting turbine box is connected with a lifting connecting rod, and the lower end of the lifting connecting rod is fixed at the upper end of the upper wallboard.

3. The air cooler for the hard cotton production line of claim 2, wherein: two lower wall plates are arranged in parallel on the frame, an upper wall plate is arranged above each corresponding lower wall plate, a carrier roller is arranged in each groove of the upper wall plate and the lower wall plate through a bearing seat, two rows of carrier rollers are arranged in parallel, two ends of the carrier roller are arranged on the upper wall plate or the lower wall plate, a plurality of lifting turbine boxes are arranged on the frame, a lifting connecting rod shaft is connected between the two lifting turbine boxes, and the two lifting turbine boxes are driven by a lifting turbine motor.

4. An air cooler for a hard cotton production line as defined in claim 1, 2 or 3, wherein: the cold water roller is arranged on one side of the lower wall plate, which is positioned at the material inlet, and the cold water roller is correspondingly arranged on the upper wall plate above the lower wall plate.

5. The air cooler for the hard cotton production line of claim 4, wherein: the cold water roller is arranged into a hollow pipeline, one end of the cold water roller is arranged into a water inlet, the other end of the cold water roller is arranged into a water outlet, and the cold water roller is driven by a motor to rotate.

6. The air cooler for the hard cotton production line of claim 5, wherein: mesh plates are arranged in the middle of the air channels of the upper air suction channel and the lower air blowing channel.

7. The air cooler for the hard cotton production line of claim 6, wherein: two upper air suction channels are arranged above the carrier roller in parallel, and two lower air blowing channels are arranged below the carrier roller in parallel.

Images