CN108151507B

CN108151507B - Drying and dehumidifying device for textile sock production and transportation

Info

Publication number: CN108151507B
Application number: CN201711388428.8A
Authority: CN
Inventors: 朱小英
Original assignee: Ningbo Yinzhou Zhiban Information Technology Co ltd
Current assignee: Jinhua Beili Knitting Co ltd
Priority date: 2017-12-20
Filing date: 2017-12-20
Publication date: 2020-06-09
Anticipated expiration: 2037-12-20
Also published as: CN108151507A

Abstract

The invention discloses a drying and dehumidifying device for textile sock production transportation, which comprises a rack, wherein a driving roller and a driven roller are respectively arranged on the left side and the right side of the top end of the rack, the driving roller is connected with the driven roller through a belt, a bottom plate is connected with a hollow plate body through a connecting column, a hot air blower is respectively connected with a first air-homogenizing plate, a second air-homogenizing plate and a third air-homogenizing plate through air conveying pipelines, a bottom side rotating roller is arranged on the inner side of a sinking groove, the bottom side rotating roller is connected with the bottom plate through a roller lever, and a bearing is arranged at the connecting position of the roller lever and the bottom plate. Through the cooperation of air heater, hollow plate body and fumarole, the hot air power enters into to hollow plate body through gas transmission pipeline in, and the hot gas flow passes through the fumarole and evenly spouts, and spun steam evenly spouts and gushes on the belt, can carry out hot air drying to socks before the packing and handle, reduces the moisture in socks to this increases the save effect of socks, makes socks be convenient for save more.

Description

Drying and dehumidifying device for textile sock production and transportation

Technical Field

The invention relates to the technical field of machinery, in particular to a drying and dehumidifying device for textile sock production and transportation.

Background

In the weaving process of the socks, the processes of preparing, weaving, sewing, rolling, dyeing, shaping, packaging and the like are required, after the production and the processing of the socks are finished, needs to be packaged, the process needs to be conveyed to a packaging place by using a belt conveying device, in the production and processing process of the socks, the moisture content in the socks is easy to be more due to longer processing time, after being directly packaged, the socks are easy to go moldy due to excessive moisture, and in the prior sock conveying device, for example, the invention patent with the application number of 201420427423.7 comprises a frame, a feeding device, a waste recovery device, a sewing box, a discharging device and a sock turning device, wherein the feeding device comprises a guide rail, a guide frame, a guide box, a feeding box and a first motor component, although this patent can carry, nevertheless in transportation process, does not carry out drying process to socks, leads to socks to be unfavorable for preserving after the packing.

Disclosure of Invention

The invention aims to provide a drying and dehumidifying device for textile sock production transportation, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a drying and dehumidifying device for textile sock production transportation comprises a rack, wherein a driving roller and a driven roller are respectively arranged on the left side and the right side of the top end of the rack, the driving roller is connected with the driven roller through a belt, a belt through hole is formed in the inner wall of the belt, a hollow plate body is arranged on the top end of the belt, a bottom plate is arranged on the top end of the inner side of the belt, the bottom plate is connected with the hollow plate body through a connecting column, an air jet hole is formed in the bottom end of the hollow plate body, a first air homogenizing plate, a second air homogenizing plate and a third air homogenizing plate are sequentially arranged on the top end of the hollow plate body from left to right, a hot air blower is arranged on the right end of the hollow plate body, the hot air blower is respectively connected with the first air homogenizing plate, the second air homogenizing plate and the third air homogenizing plate through an air conveying pipeline, a bottom through hole is formed in the, the bottom side rotating roller is connected with the bottom plate through a roller lever, and a bearing is arranged at the joint of the roller lever and the bottom plate.

Preferably, the right end of the hollow plate body is provided with a cylinder barrel, the cylinder barrel is connected with the hollow plate body through a connecting rod, the bottom end of the cylinder barrel is provided with a sealing cap, the inside of the sealing cap is connected with a bottom rod in a penetrating manner, the top end of the bottom rod is provided with a piston plate, the bottom end of the bottom rod is provided with a pressing plate, the right side of the pressing plate is provided with an arc-shaped plate, and the outer wall of the arc-shaped plate is inlaid with a rubber edge.

Preferably, the outer wall of the bottom side roller is tightly wrapped with a resin sleeve, a stainless steel cylinder is sleeved on the outer side of the resin sleeve, and a metal adhesive is arranged at the joint of the stainless steel cylinder and the resin sleeve.

Preferably, the joints of the first gas homogenizing plate, the second gas homogenizing plate and the third gas homogenizing plate with the hollow plate body are provided with sealing rings, the joints of the sealing rings with the hollow plate body are provided with polyurethane sealant, and the top ends of the sealing rings are provided with pressing strips.

Preferably, the bottom end of the hollow plate body is provided with a bottom connecting rod, the bottom end of the bottom connecting rod is provided with a metal mesh enclosure, and the metal mesh enclosure is connected with the bottom connecting rod through a fixing screw.

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

1. according to the invention, through the matching of the air heater, the hollow plate body and the air injection holes, hot air force enters the hollow plate body through the air delivery pipeline, hot air flow is uniformly sprayed out through the air injection holes, and sprayed hot air is uniformly sprayed on the belt, so that the socks before being packaged can be subjected to hot air drying treatment, the moisture in the socks is reduced, the preservation effect of the socks is improved, and the socks are more convenient to preserve.

2. According to the invention, through the matching of the connecting column and the bottom plate, the bottom plate is arranged on the hollow plate body through the connecting column, and the bottom plate supports the belt, so that socks conveyed on the surface are prevented from shaking excessively due to the fact that the belt is blown by heated wind power to drop down the belt due to shaking, the stable effect of the socks during conveying is increased, and the conveying effect is improved.

3. According to the invention, through the matching of the bottom side rotating roller, the roller lever and the bearing, when the belt rotates, the bottom side rotating roller is stressed to rotate due to the connection part of the belt and the bottom side rotating roller, the bottom side rotating rod rotates on the bottom plate through the matching of the roller lever and the bearing on the outer side, the operation of the belt is assisted, the belt is prevented from being worn due to the direct rigid contact between the belt and the bottom plate, and the use durability of the belt is increased.

4. According to the invention, through the matching of the belt through hole and the bottom through hole, after hot air blows socks, residual hot air can penetrate through the belt through hole, so that the situation that the hot air overflows on the surface of the belt due to the fact that the hot air is discharged everywhere to cause airflow disorder on the surface of the belt, the socks are blown by wind to be easily displaced is avoided, the airflow penetrating through the belt can be led out through the bottom through hole, the situation that the airflow flows back and reversely blows the belt after contacting a bottom plate is effectively avoided, and the normal conveying effect of the belt is ensured.

5. According to the invention, through the matching of the first gas homogenizing plate, the second gas homogenizing plate and the third gas homogenizing plate, when gas is conveyed to the hollow plate body, the gas can uniformly and rapidly enter the hollow plate body through the matching of the first gas homogenizing plate, the second gas homogenizing plate and the third gas homogenizing plate, so that the hollow plate body can be rapidly filled with the gas, the phenomenon that the gas flow is not uniformly sprayed due to the fact that the gas flow enters from one position and is directly discharged is avoided, and the uniform effect of the gas flow sprayed by the hollow plate body is increased.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the construction of the bottom rotating roll of the present invention;

FIG. 3 is a schematic view of the platen structure of the present invention;

FIG. 4 is a schematic structural view of a stainless steel cylinder according to the present invention;

fig. 5 is a schematic view of a metal mesh enclosure structure according to the present invention.

In the figure: 1. the device comprises a sink, 2, a first gas homogenizing plate, 3, a hollow plate body, 4, a second gas homogenizing plate, 5, a gas injection hole, 6, a third gas homogenizing plate, 7, a connecting column, 8, a bottom rotary roller, 9, a gas transmission pipeline, 10, a hot air blower, 11, a driving roller, 12, a bottom plate, 13, a rack, 14, a belt, 15, a belt through hole, 16, a bottom through hole, 17, a driven roller, 18, a roller rod, 19, a bearing, 20, a piston plate, 21, a cylinder barrel, 22, a connecting rod, 23, a sealing cap, 24, a bottom rod, 25, a pressing plate, 26, a rubber edge, 27, an arc-shaped plate, 28, a resin sleeve, 29, a metal adhesive, 30, a stainless steel barrel, 31, a pressing strip, 32, a sealing ring, 33, a polyurethane sealant, 34, a bottom connecting rod, 35, a metal mesh enclosure, 36 and a fixing screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a drying and dehumidifying device for textile sock production and transportation comprises a rack 13, wherein a driving roller 11 and a driven roller 17 are respectively arranged on the left side and the right side of the top end of the rack 13, the driving roller 11 is connected with the driven roller 17 through a belt 14, the driving roller 11, the driven roller 17 and the belt 14 are combined to form a sock conveying device, socks are conveyed to a packaging position after production and processing, a belt through hole 15 is formed in the inner wall of the belt 14, the diameter of the belt through hole 15 is 8mm, a hollow plate body 3 is arranged on the top end of the belt 14, the hollow plate body 3 is a hollow plate body 3 formed by fixedly mounting a bottom groove plate and a top cover plate and then performing sealing treatment, a cylinder barrel 21 is arranged at the right end of the hollow plate body 3, an inflating nozzle is arranged on the outer side of the cylinder barrel 21 and used for inflating gas into the cylinder barrel 21 after the gas quantity is reduced, the cylinder barrel, the inside of the sealing cap 23 is connected with a bottom rod 24 in a penetrating manner, the top end of the bottom rod 24 is provided with a piston plate 20, the bottom end of the bottom rod 24 is provided with a pressing plate 25, the right side of the pressing plate 25 is provided with an arc plate 27, the outer wall of the arc plate 27 is inlaid with a rubber edge 26, the length of the rubber edge 26 is equal to the width of the arc plate 27, when socks are conveyed on the belt 14, when the protruding part of the socks is contacted with the rubber edge 26 on the arc plate 27, the socks are continuously moved inwards, the pressing plate 25 and the arc plate 27 are in a static state, and further when the moving socks are contacted on the arc plate 27, the height of the irregular protruding socks is naturally deformed and flattened after being contacted with the pressing plate 25, so that the socks are attached to the belt 14, meanwhile, the piston plate 20 presses the piston plate 20 downwards by the air pressure in the air cylinder 21, the piston plate 20 drives the bottom rod 24 and the pressing plate 25 to downwards move to, the distance between the lowest point of the pressing plate 25 pressed downwards and the belt 14 is 2.5cm, the bottom plate 12 is arranged at the top end of the inner side of the belt 14, the bottom plate 12 is connected with the hollow plate body 3 through connecting columns 7, the number of the connecting columns 7 is 4, the connecting plates are arranged at four corners of the connecting position of the bottom plate 12 and the hollow plate body 3, the bottom plate 12 supports the belt 14 to prevent socks which are transported on the surface from falling off the belt 14 due to shaking caused by excessive shaking of the belt 14 blown by hot wind, the bottom end of the hollow plate body 3 is provided with air injection holes 5, hot air flowing into the hollow plate body 3 is uniformly sprayed out through the air injection holes 5, the sprayed hot air is uniformly sprayed on the belt 14, when the socks are transported by the belt 14, the socks before being packaged can be subjected to hot air drying treatment, the moisture in the socks is reduced, so that the preservation effect of the socks is improved, the bottom end of the, the metal mesh enclosure 35 is connected with the bottom connecting rod 34 through a fixing screw 36, the gas orifice 5 is shielded and protected through the fixedly installed metal mesh enclosure 35, foreign matters are prevented from entering the gas orifice 5 to cause blockage of the gas orifice 5, the top end of the hollow plate body 3 is sequentially provided with a first gas homogenizing plate 2, a second gas homogenizing plate 4 and a third gas homogenizing plate 6 from left to right, sealing rings 32 are respectively arranged at the joints of the first gas homogenizing plate 2, the second gas homogenizing plate 4 and the third gas homogenizing plate 6 and the hollow plate body 3, polyurethane sealant 33 is respectively arranged at the joints of the sealing rings 32 and the hollow plate body 3, a pressing strip 31 is arranged at the top end of the sealing rings 32, the sealing effect at the joints of the first gas homogenizing plate 2, the second gas homogenizing plate 4 and the third gas homogenizing plate 6 and the hollow plate body 3 is increased through the sealing rings 32 and the polyurethane sealant 33, the fixing effect after the sealing rings 3 are bonded is increased through the pressing strip 31, and the right end of the hollow plate body 3, the model of the air heater 10 is HLJT-TX, the air heater is connected with an external power supply, the external power supply is 380V alternating current, the external power supply is switched on or the external power supply is cut off to enable the air heater 10 to work or stop working, the air heater 10 is respectively connected with the first air-homogenizing plate 2, the second air-homogenizing plate 4 and the third air-homogenizing plate 6 through the air conveying pipeline 9, the external power supply of the air heater 10 is switched on to enable the air heater to work to generate hot wind power, the optimal temperature of the hot wind power is 48 ℃, the hot wind power is respectively conveyed into the first air-homogenizing plate 2, the second air-homogenizing plate 4 and the third air-homogenizing plate 6 through the air conveying pipeline 9, the gas uniformly enters the hollow plate body 3 through the first air-homogenizing plate 2, the second air-homogenizing plate 4 and the third air-homogenizing plate 6, the inner wall of the bottom plate 12 is provided with a bottom through hole 16, the gas sprayed out through the belt 14 is discharged through the bottom through hole 16, the left and right sides of the top end of the bottom, the bottom rotating roller 8 is connected with the bottom plate 12 through a roller bar 18, a bearing 19 is arranged at the joint of the roller bar 18 and the bottom plate 12, the belt 14 is arranged at the left side and the right side of the top end of the bottom plate 12, so that the belt 14 can be lapped on the bottom rotating roller 8, when the belt 14 rotates, the belt is in contact with the bottom rotating roller 8, so that the bottom rotating roller 8 is forced to rotate, the bottom rotating roller 8 rotates on the bottom plate 12 through the matching of the roller rod 18 and the bearing 19 on the outer side, the operation of the belt 14 is assisted, the belt 14 is prevented from being directly and rigidly contacted with the bottom plate 12 to cause abrasion of the belt 14, the service durability of the belt 14 is increased, the outer wall of the bottom rotating roller 8 is tightly wrapped with the resin sleeve 28, the stainless steel cylinder 30 is sleeved on the outer side of the resin sleeve 28, the metal adhesive 29 is arranged at the joint of the stainless steel cylinder 30 and the resin sleeve 28, the stainless steel cylinder 30 is installed on the bottom rotating roller 8 through the resin sleeve 28, and the service durability of the outer side of the bottom rotating roller 8 is increased through the designed stainless steel cylinder 30.

In the process of conveying the produced and processed socks to a packaging position on a belt 14, an external power supply of an air heater 10 is switched on to enable the socks to work to generate hot wind power, the optimal temperature of the hot wind power is 48 ℃, the hot wind power is respectively conveyed into a first gas homogenizing plate 2, a second gas homogenizing plate 4 and a third gas homogenizing plate 6 through a gas conveying pipeline 9, the gas uniformly and quickly enters a hollow plate body 3 through the first gas homogenizing plate 2, the second gas homogenizing plate 4 and the third gas homogenizing plate 6 and is filled with the hollow plate body 3, hot gas flow is uniformly sprayed out through a gas spraying hole 5, the sprayed hot gas uniformly sprays on the belt 14, hot wind drying treatment can be carried out on the socks before packaging, moisture in the socks is reduced, the preservation effect of the socks is improved, a bottom plate 12 is installed on the hollow plate body 3 through a connecting column 7, the bottom plate 12 supports the belt 14, the belt 14 is prevented from being shaken excessively due to the fact that the belt 14 is blown by the hot wind power and the shaking of the surface transportation is, when the belt 14 rotates, the belt contacts with the bottom roller 8, so that the bottom roller 8 is forced to rotate, the bottom roller 8 rotates on the bottom plate 12 through the matching of the outer roller rod 18 and the bearing 19, the operation of the belt 14 is assisted, the belt 14 is prevented from being worn due to direct rigid contact between the belt 14 and the bottom plate 12, and the service durability of the belt 14 is improved.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second", "third", "fourth" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated, whereby the features defined as "first", "second", "third", "fourth" may explicitly or implicitly include at least one such feature.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A drying and dehumidifying method for textile sock production and transportation is characterized in that:

the method adopts a drying and dehumidifying device for textile sock production and transportation, the device comprises a rack (13), the left side and the right side of the top end of the rack (13) are respectively provided with a driving roller (11) and a driven roller (17), the driving roller (11) is connected with the driven roller (17) through a belt (14), the inner wall of the belt (14) is provided with a belt through hole (15), the top end of the belt (14) is provided with a hollow plate body (3), the top end of the inner side of the belt (14) is provided with a bottom plate (12), the bottom plate (12) is connected with the hollow plate body (3) through a connecting column (7), the bottom end of the hollow plate body (3) is provided with an air jet hole (5), the top end of the hollow plate body (3) is sequentially provided with a first air homogenizing plate (2), a second air homogenizing plate (4) and a third air homogenizing plate (6) from left to right, the right end, the hot air blower (10) is respectively connected with the first air-homogenizing plate (2), the second air-homogenizing plate (4) and the third air-homogenizing plate (6) through an air conveying pipeline (9), a bottom through hole (16) is formed in the inner wall of the bottom plate (12), sinking grooves (1) are formed in the left side and the right side of the top end of the bottom plate (12), bottom rotating rollers (8) are arranged on the inner sides of the sinking grooves (1), the bottom rotating rollers (8) are connected with the bottom plate (12) through roller levers (18), and bearings (19) are arranged at the connection positions of the roller levers (18) and the bottom plate (12); a cylinder barrel (21) is arranged at the right end of the hollow plate body (3), the cylinder barrel (21) is connected with the hollow plate body (3) through a connecting rod (22), a sealing cap (23) is installed at the bottom end of the cylinder barrel (21), a bottom rod (24) penetrates through the sealing cap (23), a piston plate (20) is installed at the top end of the bottom rod (24), a pressing plate (25) is installed at the bottom end of the bottom rod (24), an arc-shaped plate (27) is arranged on the right side of the pressing plate (25), and a rubber rib (26) is embedded in the outer wall of the arc-shaped plate (27); the outer wall of the bottom side roller (8) is tightly wrapped with a resin sleeve (28), the outer side of the resin sleeve (28) is sleeved with a stainless steel cylinder (30), and a metal adhesive (29) is arranged at the joint of the stainless steel cylinder (30) and the resin sleeve (28); sealing rings (32) are arranged at the joints of the first gas homogenizing plate (2), the second gas homogenizing plate (4) and the third gas homogenizing plate (6) and the hollow plate body (3), polyurethane sealant (33) is arranged at the joints of the sealing rings (32) and the hollow plate body (3), and a pressing strip (31) is arranged at the top end of each sealing ring (32); a bottom connecting rod (34) is arranged at the bottom end of the hollow plate body (3), a metal net cover (35) is arranged at the bottom end of the bottom connecting rod (34), and the metal net cover (35) is connected with the bottom connecting rod (34) through a fixing screw (36);

the method comprises the following steps: in the process of conveying the produced and processed socks to a packaging position on a belt (14), an external power supply of an air heater (10) is switched on to enable the socks to work to generate hot wind power, the optimal temperature of the hot wind power is 48 ℃, the hot wind power is respectively conveyed into a first gas homogenizing plate (2), a second gas homogenizing plate (4) and a third gas homogenizing plate (6) through a gas conveying pipeline (9), gas uniformly and quickly enters a hollow plate body (3) through the first gas homogenizing plate (2), the second gas homogenizing plate (4) and the third gas homogenizing plate (6) and is filled with the hollow plate body (3), hot gas flow is uniformly sprayed out through a gas spraying hole (5), sprayed hot gas uniformly gushes on the belt (14), namely, hot wind drying treatment can be carried out on the socks before packaging, moisture in the socks is reduced, the preservation effect of the socks is improved, a bottom plate (12) is installed on the hollow plate body (3) through a connecting column (7), the bottom plate (12) supports the belt (14), socks conveyed on the surface are prevented from shaking excessively due to the fact that the belt (14) is blown by hot wind power and falling down the belt (14) due to shaking, when the belt (14) rotates, the bottom side rotating roller (8) is in contact with the bottom side rotating roller (8), then the bottom side rotating roller (8) is enabled to rotate under stress, the bottom side rotating roller (8) rotates on the bottom plate (12) through the matching of the roller lever (18) on the outer side and the bearing (19), the operation of the belt (14) is assisted, the belt (14) is prevented from being worn due to direct rigid contact between the belt (14) and the bottom plate (12), and the service durability of the belt (14) is improved.