CN106556225B - Drying system - Google Patents

Abstract

A drying system comprises a plurality of cavities, a guiding device, a nozzle and at least one guide plate. The plurality of cavities are respectively provided with an inlet and an outlet and are sequentially arranged to form a channel. The guiding device is arranged in the cavity and used for guiding the cloth to enter from the inlet of the first one of the cavities and guiding the cloth to move in the channel along the first direction. The nozzle is arranged on the inner wall of the cavity to provide air flow to the channel. The guide plate is at least arranged on the inner wall of the last one of the cavities. The guide plate extends from the inner wall of the cavity to the inlet of the cavity, wherein the extending direction of the guide plate is a second direction, and a first included angle is formed between the second direction and the inner wall of the cavity. Therefore, the hot air in the cavity can be guided to the cavity of the front section, so that the hot air for drying the cloth material can be effectively utilized, and the effect of saving energy is achieved.

Description

Drying system

Technical field

The invention relates to a kind of drying systems.

Background technique

With the raising of standard of living, consumer also has new requirement to the function of fabric, also therefore, the demand of fabric Also growing day by day.During the mass production of fabric, the cloth material as textile can first pass through cleaning and drying processing procedure.In It dries in processing procedure, cloth material can be dried through baking oven.Specifically, cloth material can pass through baking oven, enter from one end of baking oven, It is left again by the other end, wherein cloth material is that drying is completed during passing through baking oven.In addition, during Yu Bucai passes through baking oven, Baking oven will provide thermal energy and give cloth material, so that cloth material is dry.However, being highly energy-consuming processing procedure due to providing thermal energy, how effectively The focus of related fields is also had become using provided thermal energy.

Summary of the invention

One embodiment of the present invention provides a kind of drying system, and it includes cavity, nozzle and guide plates.Nozzle is set to chamber Internal wall, and high temperature gas flow is provided, so as to there be hot gas in cavity.Guide plate is at least set in the cavity of most minor details, so that chamber Intracorporal hot gas can be led in the cavity of prosthomere, so that the hot gas for drying cloth material be allow to be effectively utilized, be reached whereby To energy-efficient effect.

One embodiment of the present invention provides a kind of drying system, which is characterized in that comprising multiple cavities, guiding device, Nozzle and an at least guide plate.Multiple cavities respectively have entrance and outlet, and sequential forms channel.Guiding device is set to In cavity, enter to guide cloth material from the entrance of the one in cavity, and guide cloth material in channel along first direction row Into.Nozzle is set to the inner wall of cavity, to provide air-flow into channel.Guide plate is at least set to the interior of the most end person in cavity Wall.Entrance of the guide plate from the inner wall of cavity towards cavity extends, and the extending direction of centering guide is second direction, and second direction with There is the first angle between the inner wall of cavity.

In some embodiments, the first angle is 15 degree to 45 degree.

In some embodiments, the direction that nozzle provides air-flow is third direction.Third direction is orthogonal to first direction, And there is the second angle between second direction and third direction, the second angle is 45 degree to 75 degree.

In some embodiments, guide plate includes at least one first guide plate and at least one second guide plate, and the first guide plate with Second guide plate is respectively arranged at the opposite sides of cloth material along first direction.

In some embodiments, the configuration of the first guide plate and the second guide plate is symmetrical with cloth material.

In some embodiments, the first guide plate is configured to be alternately arranged with the second guide plate.

In some embodiments, the minimum perpendicular distance and guide plate of guide plate and cloth material are in the lenth ratio of second direction 1 to 3.

In some embodiments, drying system also includes multiple guide plates, and guide plate in second direction length with it is adjacent Another guide plate between horizontal distance ratio be 2 to 8.

In some embodiments, drying system includes m cavity, and guide plate setting is at 1st reciprocal to n-th of cavity In, wherein m and n is positive integer, and m>n.

In some embodiments, guide plate is adjacent to nozzle, and guide plate with respect to one end of the inner wall of cavity be located at nozzle with Between cloth material.

In some embodiments, the initial gas temperature of the air-flow of nozzle is 100 DEG C to 200 DEG C.

In some embodiments, drying system also includes first sensor and controller.First sensor is to sense The air-flow velocity of two cavitys adjacent to each other, only one is provided with guide plate in the adjacent cavity of two of them.Controller is used The gas of air-flow provided by nozzle is adjusted with the ratio of the air-flow velocity of two cavitys sensed according to first sensor Parameter, wherein gas parameter includes gas temperature and gas flow rate.

In some embodiments, drying system also includes second sensor.Second sensor is to sense from cavity The degree of drying for the cloth material that most end person leaves, and controller is also joined to adjust the gas of nozzle according to the degree of drying of cloth material Number.

In some embodiments, controller is also at least one of them according to first sensor and second sensor Sensing result adjustment guide plate extending direction and cavity inner wall between angle.

One embodiment of the present invention provides a kind of drying system, which is characterized in that includes cavity, guiding device, nozzle With guide plate.Cavity has entrance, outlet and channel, wherein channel connection entrance and outlet.Guiding device is set in cavity, is used To guide cloth material from entrance entrance and advance in channel.Nozzle is set to the inner wall of cavity, to provide air-flow into channel.It leads Plate is set to the inner wall of cavity, and extends from the inner wall of cavity towards the entrance of cavity, the extending direction of centering guide and cavity There is the first angle between inner wall.

Detailed description of the invention

Figure 1A is painted the stereoscopic schematic diagram of the drying system of first embodiment of the invention；

Figure 1B is painted the upper schematic diagram of the drying system of Figure 1A；

Fig. 2A is painted Figure 1A from Fig. 2 B respectively and is provided with the cavity of guide plate in the schematic side view of different embodiments；

Fig. 3 is painted the upper schematic diagram of the drying system of second embodiment of the present invention；

Fig. 4 A is painted the stereoscopic schematic diagram of the drying system of third embodiment of the present invention；

Fig. 4 B is painted the schematic side view of the cavity of Fig. 4 A.

Specific embodiment

Multiple embodiments of the invention will be disclosed with attached drawing below, as clearly stated, the details in many practices It will be explained in the following description.It should be appreciated, however, that the details in these practices is not applied to limit the present invention.Also It is to say, in some embodiments of the present invention, the details in these practices is non-essential.In addition, for the sake of simplifying attached drawing, one A little known usual structures will be painted in a manner of simply illustrating in the accompanying drawings with element.

It is highly energy-consuming processing procedure in view of providing thermal energy to give cloth material, drying system of the invention includes cavity, nozzle and guide plate. Nozzle is set to cavity inner wall, and provides high temperature gas flow, so as to there be hot gas in cavity.Guide plate is at least set to the chamber of most minor details In body so that the intracorporal hot gas of chamber can be led in the cavity of prosthomere, thus allow to dry the hot gas of cloth material effectively by It utilizes, so as to reaching energy-efficient effect.In addition, drying system can be right through first sensor, second sensor and controller The cloth material for carrying out drying processing procedure carries out immediately monitoring, and penetrates when controller adjusts the environmental condition of respective chamber and applied Related process parameter, with improve drying processing procedure efficiency.

Please refer to Figure 1A and Figure 1B.Figure 1A is painted the three-dimensional signal of the drying system 100 of first embodiment of the invention Figure.Figure 1B is painted the upper schematic diagram of the drying system 100 of Figure 1A.Drying system 100 includes multiple cavities 102a-102f and leads Leading-in device 106.It illustrates, although being painted in Figure 1A and Figure 1B there are six cavity 102a-102f, the present invention is unlimited In this, cavity can be arranged in user according to process conditions required for it, such as fewer of more than six cavitys fall within this The range of invention.Multiple cavities 102a-102f respectively has entrance and outlet, and sequential forms channel 104.For example, chamber Body 102a has entrance I1 and outlet O1, and forms channel 104 with cavity 102b-102f sequential.

Guiding device 106 is set in cavity 102a-102f, to guide cloth material 108 from cavity 102a-102f The entrance I1 of one (i.e. cavity 102a) enters, and guides cloth material 108 and advance in channel 104 along first direction D1.Citing comes It says, guiding device 106 may include needle plate and idler wheel, and can be fixed by cloth material 108 through needle plate, and cooperate idler wheel by cloth material 108 are sent into channel 104.

Fig. 2A is painted side view signal of the cavity 102f in different embodiments that Figure 1A is provided with guide plate 114 from Fig. 2 B respectively Figure.In Fig. 2A and Fig. 2 B, the cavity 102f being painted in cavity 102a-102f, wherein cavity 102f is, for example, multiple cavities Most end person in 102a-102f, and there is entrance I6 and outlet O6.

Figure 1A and Fig. 2A are please first seen simultaneously, and drying system 100 includes nozzle 110, at least a guide plate 114 and heat exchanger 118.Nozzle 110 is set to the inner wall 112 of cavity 102f, to provide air-flow 116 into channel 104, for example, nozzle 110 can be saturating Air-flow 116 is provided in channel 104 by the mode of overspray.In addition, can pass through heat exchanger 118 becomes the heating of air-flow 116 High temperature gas flow.For example, it can pass through the initial gas temperature liter that heat exchanger 118 makes air-flow 116 provided by nozzle 110 Temperature is between 100 DEG C to 200 DEG C.Through high temperature gas flow provided by nozzle 110, can there be hot gas in each cavity 102a-102f, So that each cavity 102a-102f can provide thermal energy to cloth material 108 therein, so that cloth material 108 heats up, to reach drying cloth material 108 effect.In addition, although 110 quantity of nozzle is schematically shown as in Fig. 2A it is multiple, in some embodiments, Mei Yijie Intracorporal 110 quantity of nozzle of chamber may be one or any other several.

Guide plate 114 is at least set to the inner wall 112 in cavity 102f.In other words, guide plate 114 is in addition to being set to most minor details Except cavity 102f, it can also be arranged among other cavitys 102a-102e.For example, guide plate 114 may be disposed at cavity 102d- Among 102f.Also that is, guide plate 114 may be provided at the cavity 102d-102f of three section of most end, so that the hot gas in drying system 100 It is guided and is back in the cavity of prosthomere by guide plate 114.Since cavity 102d-102f is to provide through this hot gas cloth material 108 Thermal energy simultaneously makes cloth material 108 heat up, therefore, can by making in hot gas re-flow to the cavity of prosthomere (for example, cavity 102a-102c) To improve drying system 100 to the utilization efficiency of thermal energy.It should be appreciated, however, that the cavity for being provided with guide plate 114 provided above 102d-102f quantity is only to illustrate, rather than to limit the present invention, persond having ordinary knowledge in the technical field of the present invention, Can be according to actual needs, elasticity selects cavity that guide plate 114 is arranged.For example, in other embodiments, when drying system packet When including m cavity, guide plate can be chosen and be arranged at 1st reciprocal into n-th of cavity, hot gas is directed to prosthomere In cavity, to improve drying system 100 to the utilization efficiency of thermal energy, wherein m and n is positive integer, and m>n.

The entrance I6 of guide plate 114 from inner wall 112 towards the cavity 102f of cavity 102f extend, the extension side of centering guide 114 To for second direction D2, and there is the first angle theta 1 between second direction D2 and the inner wall 112 of cavity 102f.In other words, guide plate 114 configuration direction favours the inner wall 112 of cavity 102f, wherein the first angle theta 1 can be 15 degree to 45 degree.

In addition, the direction that nozzle 110 provides air-flow 116 is third direction D3, wherein third direction D3 is orthogonal to first party To D1.Since the configuration direction of guide plate 114 favours the inner wall 112 of cavity 102f, second direction D2 and third direction D3 Between have the second angle theta 2, and the second angle theta 2 can be 45 degree to 75 degree.First angle theta 1 and the second angle theta 2 can be remaining each other Angle, for example, the second angle theta 2 is 60 degree when the first angle theta 1 is designed to 30 degree.

When guide plate 114 and nozzle 110 is configured in the above manner, the direction of travel meeting of the air-flow 116 provided by the nozzle 110 By the guiding of guide plate 114, as shown in the arrow direction on the air-flow 116 drawn.As described above, since cavity 102f is multiple Most end person in cavity 102a-102f, thus by guide plate 114 guide air-flow 116 can along channel 104 towards prosthomere cavity (i.e. Cavity 102e etc.) it advances, to efficiently use air-flow 116 provided by nozzle 110.

Still further, cloth material 108 in different cavity 102a-102f temperature can difference, for example, from first segment The temperature of cavity 102a to most minor details cavity 102f can be cumulative.In more detail, when cloth material 108 passes through guiding device 106 from baking When the entrance I1 of responsibility 100 is mobile to outlet O6, thermal energy provided by each cavity 102a-102f can remain on cloth material 108 and Gradually rise the temperature of cloth material 108.When 108 temperature of cloth material increases, the thermal energy that drying system 100 is supplied to cloth material 108 will Thermal energy needed for drying cloth material 108 can be greater than, and there may be the wastes on heating power.Therefore, by the guiding of guide plate 114, if The intracorporal hot gas of chamber for being equipped with guide plate 114 can be mobile towards prosthomere cavity, so that thermal energy can be by the higher position quilt of 108 temperature of cloth material It is directed to the lower position of 108 temperature of cloth material, and then improves drying system 100 to the utilization efficiency of thermal energy.

By taking cavity 102e and 102f as an example, when the air-flow and cloth material in cavity 102f, in cavity 102f is arranged in guide plate 114 The remaining thermal energy of institute can be led in prosthomere cavity 102e on 108, to increase drying effect of the cloth material 108 in cavity 102e Rate, and extra thermal energy can be effectively utilized, to further promote the drying efficiency of drying system 100.

Furthermore through the first angle theta 1 of adjustment and the second angle theta 2, the relative position between guide plate 114 and nozzle 110 is closed System can also further adjust.For example, guide plate 114 is opposite when guide plate 114 is adjacent to nozzle 110 and tilts to a certain degree It one end of the inner wall 112 of cavity 102f can be between nozzle 110 and cloth material 108, so that air-flow 116 provided by nozzle 110 It can be contacted with guide plate 114, and then increase guide plate 114 to the guide effect of air-flow 116.Below by the configuration mode to guide plate 114 It is further described.

In present embodiment, guide plate 114 includes at least one first guide plate 114a and at least one second guide plate 114b, and first Guide plate 114a and the second guide plate 114b is respectively arranged at the opposite sides of cloth material 108 along first direction D1.In addition, the first guide plate The configuration of 114a and the second guide plate 114b are symmetrical with cloth material 108.Under this configuration, via the first guide plate 114a and the second guide plate The guiding of 114b, the air-flow 116 as provided by nozzle 110 can be led in prosthomere cavity.

In addition, the length and the distance between guide plate 114 and cloth material 108 of guide plate 114 can further be selected, to increase Guide effect of the guide plate 114 to air-flow 116.For example, the minimum perpendicular distance L1 and guide plate 114 of guide plate 114 and cloth material 108 In the ratio of the length L2 of second direction D2 be, for example, 1 to 3, and length and adjacent guide plate of the guide plate 114 in second direction D2 The ratio of horizontal distance L3 between 114 is, for example, 2 to 8.It should be appreciated, however, that the configuration mode of guide plate 114 provided above It is only to illustrate with dimension scale, rather than to limit the present invention, persond having ordinary knowledge in the technical field of the present invention can be according to Actual needs, the configuration mode and dimension scale of elasticity selection guide plate 114.For example, having in the technical field of the invention logical Normal skill can adjust the configuration mode of guide plate according to the temperature environment of cavity 102f.

Fig. 2 B is looked at, the configuration mode of guide plate 114 can also be as shown in the guide plate 114 of Fig. 2 B.First guide plate 114a and Two guide plate 114b are located at 108 two sides of cloth material, and the first guide plate 114a and the second guide plate 114b is configured to be alternately arranged.Match in this It sets down, the hot gas resided in cavity 102f can be increased, reside in the hot gas of cavity 102f to adjust and distribute and be led to The ratio of the hot gas of prosthomere cavity.

Synthesis is aforementioned, and drying system of the invention includes cavity, nozzle and guide plate.Nozzle is set to cavity inner wall, and mentions For high temperature gas flow, so as to there be hot gas in cavity.Guide plate is at least set in the cavity of most minor details, so that the intracorporal hot gas of chamber can To be led in the cavity of prosthomere, to allow the thermal energy for drying cloth material to be effectively utilized, so as to reaching energy-efficient effect Fruit.Furthermore through the mode that hot gas is directed to leading portion cavity from back segment cavity, drying efficiency of the cloth material in drying system It can further be promoted.

Fig. 3 is looked at, wherein Fig. 3 is painted the schematic side view of the drying system 200 of second embodiment of the present invention.For Do not make attached drawing excessively complicated, Fig. 3 is not painted nozzle and guide plate, wherein the nozzle of present embodiment and the configuration mode of guide plate can It is same as Fig. 2A or Fig. 2 B.The difference of present embodiment and first embodiment is that the drying system 200 in present embodiment is also Comprising first sensor 222a and 222b, second sensor 224 and controller 220, wherein controller 220 is electrically connected to first Sensor 222a and 222b and second sensor 224.In addition, among the cavity 202a-202f that Fig. 3 is drawn, cavity 202a- 202c is not provided with guide plate, and cavity 202d-202f is provided with guide plate.

First sensor 222a and 222b are respectively to sense the air-flow stream of two cavity 202c and 202d adjacent to each other Speed.For example, first sensor 222a is to sense the air-flow velocity in cavity 202c, and first sensor 222b is to sense chamber Air-flow velocity in body 202d.In addition, in two cavitys adjacent to each other, the air-flow velocity in the latter and the air-flow in the former The percentage of the ratio of flow velocity is known as hot gas backstepping rate.For example, in the air-flow velocity in cavity 202d and cavity 202c The percentage of the ratio of air-flow velocity can be referred to as hot gas backstepping rate.

The cloth material 208 that second sensor 224 is left to the most end person (i.e. cavity 202f) that senses from cavity 202a-202f Degree of drying, with determine complete drying cloth material 208 degree of drying.The calculation of the degree of drying of cloth material 208 can be same In the world, public calibration is quasi-, such as is same as public affairs and determines containing damp rate.

Controller 220 is according to the sensing result of at least one of first sensor 222a and 222b and second sensor 224 The environmental condition in cavity 202c and 202d is adjusted, for example, between the extending direction of adjustable slide and the inner wall of cavity 202d Angle adjusts the first angle theta 1 (see Fig. 2A), or, it can adjust the gas parameter of air-flow provided by nozzle, wherein gas Body parameter includes gas temperature and gas flow rate.For example, controller 220 can be according to the air-flow of two cavitys 202c and 202d The ratio of flow velocity or the degree of drying of cloth material 208 adjust the gas parameter of air-flow provided by nozzle.

In more detail, through first sensor 222a and 222b, the heat of available adjacent two cavitys 202c and 202d The circulation of vital energy in the wrong direction pushes away rate, through second sensor 224, the degree of drying of the available cloth material 208 dried.Then, controller 220 can The adjustment of the environmental condition in cavity 202c and 202d is carried out by hot gas backstepping rate and degree of drying.Different condition will be lifted below Situation be described further.

When hot gas backstepping rate is greater than 20% and the degree of drying of cloth material 208 is greater than fixed 1.1 times containing damp rate of public affairs of its material When, controller 220 can reduce by the first angle theta 1 (see Fig. 2A), increase gas temperature and reduce gas flow rate.

When hot gas backstepping rate is greater than 20% and the degree of drying of cloth material 208 is less than fixed 0.9 times containing damp rate of public affairs of its material When, controller 220 can increase by the first angle theta 1 (see Fig. 2A), reduce gas temperature and reduce gas flow rate.

When hot gas backstepping rate is less than 18% and the degree of drying of cloth material 208 is greater than fixed 1.1 times containing damp rate of public affairs of its material When, controller 220 can reduce by the first angle theta 1 (see Fig. 2A), increase gas temperature and increase gas flow rate.

When hot gas backstepping rate is less than 18% and the degree of drying of cloth material 208 is less than fixed 0.9 times containing damp rate of public affairs of its material When, controller 220 can increase by the first angle theta 1 (see Fig. 2A), reduce gas temperature and increase gas flow rate.

In present embodiment, by sensing the environmental condition of cavity, drying system can be carried out the cloth material dried Instant monitoring, and the parameter applied when drying is adjusted through the environmental condition of controller respective chamber, it is carried out with improving Drying processing procedure efficiency.In addition, the environmental condition through controller respective chamber adjusts the parameter applied when drying, drying System corresponds to the parameter that cloth material is applied and can also further optimize, and is improved efficiency and energy-efficient effect with reaching.

Fig. 4 A and Fig. 4 B are looked at, Fig. 4 A is painted the three-dimensional signal of the drying system 300 of third embodiment of the present invention Figure, and Fig. 4 B is painted the schematic side view of the cavity 302 of Fig. 4 A.The difference of present embodiment and first embodiment is, this 302 quantity of cavity of drying system 300 in embodiment is one.Cavity 302 has entrance I1, outlet O1 and channel 304, Its centering guide 314 is set to the position of the inner wall 312 of cavity 302 and neighbouring outlet O1, also that is, guide plate 314 is set to cavity 302 Channel 304 second half section.In addition, the entrance I1 of guide plate 314 from inner wall 312 towards the cavity 302 of cavity 302 extends, wherein leading There is the first angle theta 1, and the first angle theta 1 is 15 degree to 45 degree between the extending direction of plate 314 and the inner wall 312 of cavity 302.

In present embodiment, through the guide plate 114 for the outlet O1 for being positioned adjacent to cavity 302, in channel 304, by spraying High temperature gas flow provided by mouth 310 can be led to the front half section in channel 314 from the second half section in channel 314, be dried with efficiently using The thermal current of dry cloth material, so as to reaching energy-efficient effect and improving the efficiency of drying processing procedure.

In conclusion drying system of the invention includes cavity, nozzle and guide plate.Nozzle is set to cavity inner wall, and mentions For high temperature gas flow, so as to there be hot gas in cavity.Guide plate is at least set in the cavity of most minor details, so that the intracorporal hot gas of chamber can To be led to the cavity of prosthomere, to allow the hot gas for drying cloth material to be effectively utilized, so as to reaching energy-efficient effect. Furthermore through the mode that hot gas is directed to leading portion cavity from back segment cavity, drying efficiency of the cloth material in drying system can also Further promoted.In addition, drying system can be to the cloth dried through first sensor, second sensor and controller Material carries out instant monitoring, to improve the efficiency of carried out drying processing procedure, and reaches energy-efficient effect.

Although the present invention is disclosed above with numerous embodiments, however, it is not to limit the invention, any to be familiar with this Those skilled in the art, without departing from the spirit and scope of the present invention, when can be used for a variety of modifications and variations, therefore protection model of the invention Enclosing should be defined by the scope of the appended claims.

Claims (18)

1. a kind of drying system, which is characterized in that include：

Multiple cavities respectively have entrance and outlet, and sequential forms channel；

Guiding device is set in the cavity, is entered to guide cloth material from the entrance of the one in the cavity, And it guides the cloth material and advances in the channel along first direction；

Nozzle is set to the inner wall of the cavity, to provide air-flow into the channel；And

An at least guide plate is at least set to the inner wall of the most end person in the cavity, wherein the guide plate is from the cavity Wall towards the cavity the entrance extend, wherein the extending direction of the guide plate be second direction, and the second direction with There is the first angle between the inner wall of the cavity.

2. drying system according to claim 1, which is characterized in that first angle is 15 degree to 45 degree.

3. drying system according to claim 1, which is characterized in that the direction that the nozzle provides the air-flow is third Direction, the third direction are orthogonal to the first direction, and have second between the second direction and the third direction Angle, second angle are 45 degree to 75 degree.

4. drying system according to claim 1, which is characterized in that the guide plate is comprising at least one first guide plate and at least One second guide plate and first guide plate are respectively arranged at the opposite of the cloth material along the first direction with second guide plate Two sides.

5. drying system according to claim 4, which is characterized in that the configuration of first guide plate and second guide plate It is symmetrical with the cloth material.

6. drying system according to claim 4, which is characterized in that the configuration of first guide plate and second guide plate To be alternately arranged.

7. drying system according to claim 1, which is characterized in that the minimum perpendicular distance of the guide plate and the cloth material With the guide plate in the second direction lenth ratio be 1 to 3.

8. drying system according to claim 1, which is characterized in that also include multiple guide plates, and the guide plate in Horizontal distance ratio between the length of the second direction and adjacent another guide plate is 2 to 8.

9. drying system according to claim 1, which is characterized in that the quantity of the multiple cavity is m, and described is led Plate setting is in 1st to n-th cavity reciprocal, and wherein m and n is positive integer, and m>n.

10. drying system according to claim 1, which is characterized in that the guide plate is adjacent to the nozzle, and described leads One end of the inner wall of the relatively described cavity of plate is between the nozzle and the cloth material.

11. drying system according to claim 1, which is characterized in that the initial gas of the air-flow from the nozzle Temperature is 100 DEG C to 200 DEG C.

12. drying system according to claim 1, which is characterized in that also include：

First sensor, to sense the air-flow velocity of two cavitys adjacent to each other, the adjacent chamber of two of them Only have one in body and is provided with the guide plate；And

Controller, the ratio of the air-flow velocity to two cavitys sensed according to the first sensor is to adjust The gas parameter of the air-flow provided by nozzle is stated, wherein the gas parameter includes gas temperature and gas flow rate.

13. drying system according to claim 12, which is characterized in that also include：

Second sensor, to sense the degree of drying for the cloth material that the most end person from the cavity leaves, and the control The gas parameter of the device also to adjust the nozzle according to the degree of drying of the cloth material.

14. drying system according to claim 13, which is characterized in that the controller according to described first also to pass The sensing result of at least one of them of sensor and the second sensor adjusts the extending direction and the cavity of the guide plate Inner wall between angle.

15. a kind of drying system, which is characterized in that include：

Cavity has entrance, outlet and channel, wherein the channel is connected to the entrance and the outlet；

Guiding device is set in the cavity, to guide cloth material from entrance entrance and advance in the channel；

Nozzle is set to the inner wall of the cavity, to provide air-flow into the channel；And

Guide plate is set to the inner wall of the cavity, and extends from the inner wall of the cavity towards the entrance of the cavity, wherein described There is the first angle between the extending direction of guide plate and the inner wall of the cavity.

16. drying system according to claim 15, which is characterized in that first angle is 15 degree to 45 degree.

17. drying system according to claim 15, which is characterized in that the direction that the nozzle provides the air-flow is orthogonal In the direction of travel of the cloth material, and the extending direction of the guide plate and the nozzle provide and have between the direction of the air-flow Second angle, second angle are 45 degree to 75 degree.

18. drying system according to claim 15, which is characterized in that the quantity of the guide plate is multiple, and described is led Plate is set to the opposite sides of the cloth material.