CN114875608A

CN114875608A - High-speed drying and shaping device and process for cashmere sweater

Info

Publication number: CN114875608A
Application number: CN202210440260.5A
Authority: CN
Inventors: 徐明星
Original assignee: Paluopo Cashmere Products Co ltd
Current assignee: Paluopo Cashmere Products Co ltd
Priority date: 2022-04-25
Filing date: 2022-04-25
Publication date: 2022-08-09
Anticipated expiration: 2042-04-25
Also published as: CN114875608B

Abstract

The invention discloses a high-speed drying and shaping device and a high-speed drying and shaping process for cashmere sweaters, wherein the device comprises a furnace channel (1), a steam generator (2) is arranged on one side of the furnace channel (1), a steam outlet (3) of the steam generator (2) extends into the furnace channel (1), a feeding hole (4) is formed in one end of the furnace channel (1), and a discharging hole (5) is formed in the other end of the furnace channel (1); the device is characterized by also comprising an annular chain (6), wherein one part of the chain (6) penetrates through the bottom of the furnace channel (1), a driving mechanism (8) is arranged on the chain (6), and a plurality of cashmere sweater fixing mechanisms (7) are arranged on the chain (6); a drying chamber (10), a shaping chamber (11) and a drying chamber (12) are sequentially formed in the furnace passage (1) from the feeding hole (4) to the discharging hole (5), and a plurality of exhaust holes are formed in the tops of the drying chamber (10) and the drying chamber (12). The method has the advantages of improving the production efficiency of the cashmere sweater, along with low energy consumption, good shaping effect of the cashmere sweater and simple and convenient operation.

Description

High-speed drying and shaping device and process for cashmere sweater

Technical Field

The invention belongs to the field of cashmere sweater production equipment, and particularly relates to a high-speed drying and shaping device and process for a cashmere sweater.

Background

The subsequent procedure of producing the cashmere sweater is to clean the cashmere sweater, dry the cashmere sweater after cleaning and shape the sweater by using an iron after drying, namely the subsequent procedure comprises three steps of cleaning, drying and shaping, and the steps are more, thus the production efficiency of the cashmere sweater is low. Washing and stoving homoenergetic are handled many cashmere sweaters simultaneously, speed still is good, still rely on artificial mode to iron the cashmere sweater in proper order during the design, heat the cashmere sweater with iron spun vapor during ironing, nevertheless need avoid iron and cashmere sweater direct contact, because iron direct contact cashmere sweater can obstruct the vapor blowout, still cause the heat gathering, the cashmere sweater is overheated and the flaw appears, the ironing degree of difficulty is big, lead to design speed very slow, the majority time of later process has been occupied, very big reduction the production efficiency of cashmere sweater. Therefore, a new device and process are needed to improve the production efficiency of cashmere sweaters.

Disclosure of Invention

The invention aims to provide a high-speed drying and shaping device and a high-speed drying and shaping process for a cashmere sweater. The method has the advantages of improving the production efficiency of the cashmere sweater, along with low energy consumption, good shaping effect of the cashmere sweater and simple and convenient operation.

The technical scheme of the invention is as follows: the device comprises a furnace channel, wherein a steam generator is arranged on one side of the furnace channel, a steam outlet of the steam generator extends into the furnace channel, a feed inlet is formed in one end of the furnace channel, and a discharge outlet is formed in the other end of the furnace channel; the electric heating furnace also comprises an annular chain, wherein one part of the chain penetrates through the bottom of the furnace channel, a driving mechanism is arranged on the chain, and a plurality of fixing mechanisms for the cashmere sweaters are arranged on the chain.

In the high-speed drying and shaping device for the cashmere sweater, two first heat-insulating curtains are arranged in the furnace channel, the drying chamber, the shaping chamber and the drying chamber are sequentially formed in the furnace channel from the feed inlet to the discharge outlet through the two heat-insulating curtains, the tops of the drying chamber and the drying chamber are respectively provided with a plurality of exhaust holes, the exhaust holes are filled with sponge, and the steam outlet of the steam generator stretches into the shaping chamber.

In the high-speed drying and shaping device for the cashmere sweater, the feeding port and the discharging port are respectively provided with a second heat insulation curtain.

In the high-speed drying and shaping device for the cashmere sweater, the driving mechanism comprises a plurality of chain wheels arranged on the inner side of the chain, the chain wheels are connected with the rotating shaft through bearings, the rotating shaft is fixed with the ground, the high-speed drying and shaping device further comprises a support, a motor is arranged on the support, the output end of the motor is provided with a driving gear, the driving gear is meshed with two driven gears, and the two driven gears are respectively fixed on two adjacent rotating shafts.

In the high-speed drying and shaping device for the cashmere sweater, the motor is positioned outside the furnace path.

In the high-speed drying and shaping device for the cashmere sweater, the fixing mechanism comprises an air bag simulating the upper body of a human body, a solution with a boiling point of 35-70 degrees is arranged in the air bag, a shaping plate is arranged in the air bag, an adapter plate penetrating through the air bag is arranged at the lower end of the shaping plate, the adapter plate is connected with a chain through a cross rod, a base is arranged at the lower end of the adapter plate, and universal casters are arranged at the bottom of the base.

In the high-speed drying and shaping device for cashmere sweaters, the two sides of the shaping plate are both provided with the arm plates, the arm plates are rotatably connected with the shaping plate through the pin shafts, the outer side ends of the pin shafts are provided with the stop blocks, the dish springs penetrated by the pin shafts are arranged between the arm plates and the shaping plate, and the two sides of the arm plates are both provided with the limit blocks fixed with the shaping plate.

In the high-speed drying and shaping device for the cashmere sweater, the shaping plate and the adapter plate are made of aluminum alloy, the shaping plate and the adapter plate are both provided with anticorrosive coatings, and the adapter plate is provided with cooling fins.

In the high-speed drying and shaping device for the cashmere sweater, the bottom of the air bag is provided with a hole which is rotated by the adapter plate, the hole is provided with an upward extending edge covering, the edge covering is tightly matched and connected with the adapter plate, and the height of the edge covering exceeds the liquid level of the solution.

The process of the high-speed drying and shaping device for the cashmere sweater comprises the following steps,

a. workers hang the dried cashmere sweater on the fixing mechanism at the outer side of the furnace channel,

b. the rotating chain drives the cashmere sweater to slowly pass through the furnace channel, so that the cashmere sweater is dried, shaped and dried in the furnace channel, the air bag is in a swelling state when the cashmere sweater is shaped,

c. the cashmere sweater is cooled after passing through the furnace passage, and the cashmere sweater is taken down from the fixing mechanism after the air bag is contracted.

Compared with the prior art, the temperature and humidity required for shaping the cashmere sweater in the shaping chamber are kept in the shaping chamber through the steam generator, so that the cashmere sweater can be shaped in the shaping chamber, the drying chamber and the drying chamber are respectively arranged at the two sides of the shaping chamber, the drying chamber and the drying chamber are both kept at higher temperature by utilizing the residual temperature of the shaping chamber, the exhaust holes with sponge are arranged at the tops of the drying chamber and the drying chamber, the humidity of the drying chamber and the drying chamber is reduced on the basis of avoiding heat loss in the drying chamber and the drying chamber as much as possible, and the cashmere sweater can be dried in the drying chamber and the drying chamber. The drying chamber, the shaping chamber and the drying chamber are linearly arranged to form a furnace channel, the chain is used for driving the fixing mechanism to sequentially change the furnace channel, the cashmere sweater on the fixing mechanism is sequentially dried, shaped and dried, and the assembly line type work is carried out, so that the shaping time of the cashmere sweater is greatly shortened, the production efficiency of the cashmere sweater is improved, the cashmere sweater can be preliminarily dried after being cleaned, and the energy consumption is reduced by drying the cashmere sweater by using the residual heat generated during shaping. The low boiling point solution in the air bag is vaporized after the air bag enters the furnace passage, so that the air bag is expanded, the cashmere sweater is slightly tensioned, the cashmere sweater is in a stretched state, the setting effect is good, after the cashmere sweater leaves the furnace passage, the low boiling point solution is condensed again, the air bag is contracted, so that the cashmere sweater is easy to take down from the fixing mechanism, and the operation is simple and convenient. Meanwhile, the arm plate on the fixing mechanism can rotate, the limiting block limits the upward rotation angle and the downward rotation angle of the arm plate, when the arm plate is screwed up and erected, a worker can conveniently fix the cashmere sweater on the fixing mechanism, the operation simplicity is further improved, and when the arm plate is screwed down, the cashmere sweater is ensured to be unfolded, so that the shaping effect of the cashmere sweater is ensured to be good. Therefore, the method has the advantages of improving the production efficiency of the cashmere sweater, reducing energy consumption, having good shaping effect of the cashmere sweater and being simple and convenient to operate.

Drawings

Fig. 1 is a schematic top view of the present invention.

FIG. 2 is a schematic view of a first insulating curtain.

FIG. 3 is a schematic view of the sprocket construction.

Fig. 4 is a schematic view of the structure of fig. 1 at a-a.

FIG. 5 is a bottom view of the present invention at the drive gear.

Fig. 6 is a front view of the securing mechanism.

Fig. 7 is a schematic view of fig. 6 at B-B.

Fig. 8 is a schematic view of the fixing mechanism when the arm board is erected.

The labels in the figures are: 1-furnace channel, 2-steam generator, 3-steam outlet, 4-feeding inlet, 5-discharging outlet, 6-chain, 7-fixing mechanism, 8-driving mechanism, 9-first heat-insulating curtain, 10-drying chamber, 11-shaping chamber, 12-drying chamber, 14-second heat-insulating curtain, 15-chain wheel, 16-bearing, 17-rotating shaft, 18-bracket, 19-motor, 20-driving gear, 21-driven gear, 22-air bag, 23-shaping plate, 24-adapter plate, 25-cross bar, 26-base, 27-universal caster, 28-arm plate, 29-pin shaft, 30-stop block, 31-disc spring, 32-stop block, 34-radiating fin, 35-edge, 36-solution, 37-cord.

Detailed Description

The invention is further illustrated by the following figures and examples, which are not to be construed as limiting the invention.

Examples are given. A high-speed drying and shaping device for cashmere sweaters, as shown in figure 1, comprises a furnace channel 1, wherein a steam generator 2 is arranged on one side of the furnace channel 1, a steam outlet 3 of the steam generator 2 extends into the furnace channel 1, one end of the furnace channel 1 is provided with a feeding hole 4, and the other end of the furnace channel 1 is provided with a discharging hole 5; the furnace is characterized by further comprising an annular chain 6, wherein one part of the chain 6 penetrates through the bottom of the furnace channel 1, a driving mechanism 8 is arranged on the chain 6, and a plurality of fixing mechanisms 7 of cashmere sweaters are arranged on the inner side of the chain 6.

Be equipped with the first thermal-insulated curtain 9 of twice in the flame path 1, form drying chamber 10, design room 11 and drying chamber 12 from feed inlet 4 to discharge gate 5 in proper order through the first thermal-insulated curtain 9 of twice messenger's flame path 1, drying chamber 10 and drying chamber 12's top all is equipped with a plurality of exhaust holes, and the sponge of heat-resisting temperature more than 150 ℃ is packed to exhaust hole department, the sponge is used for making the smooth exhaust of moisture when, reduces the heat outflow, and steam generator 2's steam outlet 3 stretches into in the design room 11.

As shown in fig. 2, the feed port 4 and the discharge port 5 are both provided with a second thermal insulation curtain 14. The first heat-insulating curtain 9 and the second heat-insulating curtain 14 are both composed of two heat-resistant curtain cloth 37, the top ends of the two curtain cloth 37 are both fixed with the furnace channel 1, and the fixing mechanism 7 can penetrate through the space between the two curtain cloth 37. The first heat insulation curtain 9 is used for keeping high temperature and high humidity in the shaping chamber 11, and the second heat insulation curtain 14 is used for reducing heat loss of the drying chamber 10 and the drying chamber 12 and reducing energy consumption.

The driving mechanism 8 comprises a plurality of chain wheels 15 arranged inside the chain 6, as shown in fig. 3, the chain wheels 15 are connected with a rotating shaft 17 through bearings 16, and the rotating shaft 17 is fixed with the ground. As shown in fig. 4 and 5, the chain wheel further comprises a support 18 fixed with the ground, the support 18 is U-shaped, a motor 19 is arranged at the top of the support 18, a driving gear 20 is arranged at the output end of the motor 19, two driven gears 21 are engaged with the driving gear 20, the two driven gears 21 are respectively fixed on two adjacent rotating shafts 17, and the driven gear 21 is arranged at the lower side of the chain wheel 15. The motor 19 is a speed reduction motor, the driving gear 20 drives the two driven gears 21 to rotate at a time, the stress between the gear 20 and the driven gears 21 can be reduced by half, damage to teeth on the driving gear 20 and the driven gears 21 is avoided, and the failure rate of the device is reduced.

The motor 19 is positioned on the outer side of the furnace passage 1, so that the motor 19 is prevented from being affected with damp and overheated, and the service life is prolonged.

As shown in fig. 6, fixing mechanism 7 is equipped with solution 36 including the gasbag 22 of the human upper part of the body of simulation, in gasbag 22, solution 36 is dichloromethane, and dichloromethane's boiling point is 40 ℃, and gasbag 22's material should be able to bear the corruption of surviving solution 36, like fluororubber, is equipped with stereotype 23 in the gasbag 22, the appearance of stereotype is approximate the appearance of human upper part of the body except for the arm part, and stereotype 23's lower extreme is equipped with adapter plate 24 that passes gasbag 22, and adapter plate 24 passes through horizontal pole 25 connecting link 6, and adapter plate 24's lower extreme is equipped with square base 26, and base 26's bottom is equipped with four universal castor 27, and four universal castor 27 are located four angles of base 26 respectively.

The both sides of stereotype 23 all are equipped with arm plate 28, as shown in fig. 7, arm plate 28 rotates with stereotype 23 through round pin axle 29 to be connected, and the outside end of round pin axle 29 is equipped with dog 30, and dog 30 is used for preventing that arm plate 28 from deviating from round pin axle 29, is equipped with the dish spring 31 of being passed by round pin axle 29 between arm plate 28 and the stereotype 23, dish spring 31 provides the damping when being used for rotating for arm plate 28 to can make arm plate 28 all keep stopping after rotating arbitrary angle, arm plate 28's both sides all are equipped with the stopper 32 fixed with stereotype 23, and two stoppers 32 have restricted arm plate 28's rotation range.

The utility model discloses a solar heat collector, including the adapter plate 24, the design board 23 with the material of adapter plate 24 is the aluminum alloy, all is equipped with the anticorrosive coating on design board 23 and the adapter plate 24, the anticorrosive coating is the plating metal layer, the plating metal layer is copper or zinc for avoid the aluminum alloy to be corroded by solution 36, is equipped with a plurality of fin 34 of arranging side by side on the adapter plate 24. In the design board 23 with on the basis that adapter plate 24 material adopted the aluminum alloy, heat transfer speed was fast outside in the gasbag 22, make the state of solution 36 can be fast and quick response along with ambient temperature, promptly after fixed establishment 7 got into flue 1, dichloromethane can vaporize fast and the gasbag is bloated fast, leave behind flue 1 when fixed establishment 7, dichloromethane can resume liquid fast, make gasbag 22 shrink fast, on the basis that gasbag 22 can the quick reaction, the length of flue 1 can be done for a short time, the cost and the area of reduction device. In order to further increase the contraction speed of the air bag 22 after the fixing mechanism 7 leaves the furnace passage 1, a fan for blowing air to the fixing mechanism 7 can be arranged on one side of the discharge port 5.

The bottom of the air bag 22 is provided with a hole which is rotated by the adapter plate 24, an upward extending edge 35 is arranged at the hole, the edge 35 is tightly matched and adhesively connected with the adapter plate 24, and the height of the edge 35 exceeds the liquid level of the solution 36.

The working principle is as follows: the steam generator 2 continuously generates high-heat steam, the high-heat steam enters the shaping chamber 11 through the steam outlet 3, so that the temperature and humidity (with the temperature of 150-. The motor 19 drives the driving gear 20 to rotate, the driving gear 20 drives the driven gear 21 to rotate, the driven gear 21 drives the corresponding chain wheel 15 to rotate through the corresponding rotating shaft 17, the corresponding chain wheel 15 drives the chain 6 to rotate, other chain wheels 15 follow up, the chain 6 drives the fixing mechanism 7 to rotate, the fixing mechanism 7 penetrates through the furnace path 1 once every rotation of one circle, and the rotating direction of the fixing mechanism 7 is from the feeding hole 4 to the discharging hole 5.

The technology of the high-speed drying and shaping device of the cashmere sweater comprises the following steps: the worker stands near the feed inlet 4, operates the fixing mechanism 7 passing through the front surface, firstly rotates and erects the two arm plates 28 upwards, then sleeves the washed cashmere sweater which is primarily dried from top to bottom, enables the two sleeves of the cashmere sweater to be sleeved on the two arm plates 28, enables the neckline of the cashmere sweater to be penetrated through the upper end of the shaping plate 23, and then puts down the two arm plates 28 to primarily flatten the cashmere sweater.

When the cashmere sweater passes through the drying chamber 10, the temperature of the drying chamber 10 is utilized to basically dry the cashmere sweater, the solution 36 is vaporized to expand the air bags 22, the air bags 22 slightly tighten the cashmere sweater, and the cashmere sweater is completely flat. When the cashmere sweater passes through the shaping chamber 11, the shaping treatment is carried out by utilizing the temperature and the humidity in the shaping chamber 11. When the cashmere sweater passes through the drying chamber 12, the humidity in the drying chamber 12 is lower, the temperature is higher, and the drying of the cashmere sweater is promoted. After the cashmere sweater comes out of the drying chamber 12, the cashmere sweater is completely dried by using the residual temperature and is gradually cooled, the gaseous dichloromethane is changed into the solution 36 again, and the air bag 22 is contracted, so that the cashmere sweater is easily taken down from the fixing mechanism 7. When the finished cashmere sweater is moved to the front of the worker again, the worker erects the arm plate 28, takes the finished cashmere sweater off, and puts the next cashmere sweater to be processed on again.

Claims

1. High-speed drying and shaping device of cashmere sweater, its characterized in that: the device comprises a furnace channel (1), wherein a steam generator (2) is arranged on one side of the furnace channel (1), a steam outlet (3) of the steam generator (2) extends into the furnace channel (1), a feeding hole (4) is formed in one end of the furnace channel (1), and a discharging hole (5) is formed in the other end of the furnace channel (1); the cashmere sweater heating furnace is characterized by further comprising an annular chain (6), wherein one part of the chain (6) penetrates through the bottom of the furnace channel (1), a driving mechanism (8) is arranged on the chain (6), and a plurality of fixing mechanisms (7) for cashmere sweaters are arranged on the chain (6).

2. The high-speed drying and shaping device for the cashmere sweater according to claim 1, which is characterized in that: be equipped with twice first thermal-insulated curtain (9) in flue (1), form drying chamber (10), design room (11) and drying chamber (12) in proper order from feed inlet (4) to discharge gate (5) in making flue (1) through twice first thermal-insulated curtain (9), the top of drying chamber (10) and drying chamber (12) all is equipped with a plurality of exhaust holes, packs the sponge in the exhaust hole, and steam generator (2) steam outlet (3) stretch into in design room (11).

3. The high-speed drying and shaping device for the cashmere sweater according to claim 1, which is characterized in that: the feeding hole (4) and the discharging hole (5) are both provided with second heat insulation curtains (14).

4. The high-speed drying and shaping device for the cashmere sweater according to claim 1, which is characterized in that: actuating mechanism (8) are including setting up a plurality of sprocket (15) at chain (6) inboard, and pivot (17) are connected through bearing (16) in sprocket (15), and pivot (17) are fixed with ground, still include support (18), are equipped with motor (19) on support (18), and the output of motor (19) is equipped with driving gear (20), and the meshing has two driven gear (21) on driving gear (20), and two driven gear (21) are fixed respectively on two adjacent pivot (17).

5. The high-speed drying and shaping device for the cashmere sweater according to claim 4, which is characterized in that: the motor (19) is positioned outside the furnace channel (1).

6. The high-speed drying and shaping device for the cashmere sweater according to claim 1, which is characterized in that: fixing mechanism (7) are equipped with solution (36) of boiling point 35-70 including gasbag (22) of the human upper part of the body of simulation in gasbag (22), are equipped with stereotype board (23) in gasbag (22), and the lower extreme of stereotype board (23) is equipped with keysets (24) that pass gasbag (22), and keysets (24) are through horizontal pole (25) connection chain (6), and the lower extreme of keysets (24) is equipped with base (26), and the bottom of base (26) is equipped with universal caster (27).

7. The high-speed drying and shaping device for the cashmere sweater according to claim 6, which is characterized in that: the both sides of stereotype board (23) all are equipped with arm board (28), and arm board (28) rotate with stereotype board (23) through round pin axle (29) and are connected, and the outside end of round pin axle (29) is equipped with dog (30), is equipped with dish spring (31) that are passed by round pin axle (29) between arm board (28) and stereotype board (23), and the both sides of arm board (28) all are equipped with stopper (32) fixed with stereotype board (23).

8. The cashmere sweater high-speed drying and shaping device according to claim 7, characterized in that: the material of stereotype board (23) with keysets (24) is the aluminum alloy, all is equipped with the anticorrosive coating on stereotype board (23) and keysets (24), is equipped with fin (34) on keysets (24).

9. The high-speed drying and shaping device for the cashmere sweater according to claim 6, which is characterized in that: the bottom of the air bag (22) is provided with a hole which is rotated by the adapter plate (24), an upward extending edge covering (35) is arranged at the hole, the edge covering (35) is tightly matched and connected with the adapter plate (24), and the height of the edge covering (35) exceeds the liquid level of the solution (36).

10. The process of the cashmere sweater high speed drying and sizing device according to any claim 1 to 9, characterized in that: comprises the following steps of (a) carrying out,

a. workers hang the dried cashmere sweater on the fixing mechanism (7) at the outer side of the furnace passage (1),

b. the rotating chain (6) is utilized to drive the cashmere sweater to slowly pass through the furnace passage (1) so that the cashmere sweater is dried, shaped and dried in the furnace passage (1), the air bag (22) is in a swelling state when the cashmere sweater is shaped,

c. the cashmere sweater is cooled after passing through the furnace passage (1), and the cashmere sweater is taken down from the fixing mechanism (7) after the air bag (22) is contracted.