CN112048852A

CN112048852A - Humidifying method for glass fiber cloth during inspection

Info

Publication number: CN112048852A
Application number: CN202010914785.9A
Authority: CN
Inventors: 林嘉佑
Original assignee: Taijia Chengdu Glass Fiber Co ltd
Current assignee: Taijia Chengdu Glass Fiber Co ltd
Priority date: 2020-09-03
Filing date: 2020-09-03
Publication date: 2020-12-08
Anticipated expiration: 2040-09-03
Also published as: CN112048852B

Abstract

The invention discloses a humidifying method for glass fiber cloth during inspection, which comprises a water storage tank and a cross bar, wherein two ends of the cross bar are respectively positioned at two sides of the inner wall of the water storage tank; two sides of the water storage tank are provided with movable rods, the movable rods penetrate into the water storage tank, and the tail ends of the movable rods, which are positioned in the water storage tank, are provided with filtering components with arc structures; the top of tank is equipped with a plurality of bracing pieces, and the top of bracing piece is equipped with the roof, is equipped with the gag lever post on the roof, and the gag lever post is vertical to be run through on the roof, and the bottom of gag lever post is equipped with the water tank, and the bottom of water tank is equipped with the shower nozzle, still is equipped with the aqueduct on the lateral wall of tank to aqueduct and water tank intercommunication are equipped with the water pump on the aqueduct. The invention can recycle the moisture used for humidifying the fiber cloth, reduce the waste of water resources and simultaneously ensure that the fiber cloth can be uniformly humidified.

Description

Humidifying method for glass fiber cloth during inspection

Technical Field

The invention relates to the technical field of fiber cloth processing, in particular to a humidifying method for glass fiber cloth during inspection.

Background

The cloth inspecting machine is a set of necessary special equipment for inspecting extra-large breadth, double breadth and single breadth cloth such as cotton, wool, hemp, silk, chemical fiber and the like before production in the clothing industry, is specially used for inspecting various fabrics before batch production, so that the quality of the clothing fabric is ensured by preventing inferior fabrics from flowing into a production line.

After cloth on the cloth inspecting machine is humidified by the conventional cloth surface humidifying device of the cloth inspecting machine, part of water for humidification can be lost, so that the waste of water resources is caused, and the conventional humidifying device is nonuniform in humidifying the cloth, so that the water content of certain parts of the cloth is easily large.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a humidifying method for glass fiber cloth inspection, which can recycle moisture used for humidifying the fiber cloth, reduce waste of water resources and ensure uniform humidification of the fiber cloth.

The invention is realized by the following technical scheme:

a humidifying method for glass fiber cloth during inspection comprises the following steps:

1) placing glass fiber cloth to be humidified on a movable cylinder of a water storage tank, and driving the movable cylinder to rotate in the water storage tank under the action of friction force when an external driving roller drives the glass fiber cloth to move;

2) in the process that the movable cylinder rotates in the water storage tank, water in the water storage tank is absorbed in a foam layer of the movable cylinder;

3) when the foam layer is contacted with the glass fiber cloth, the glass fiber cloth extrudes the water absorbed in the foam layer, and the lower surface of the glass fiber cloth is humidified;

4) meanwhile, water in the water storage tank is pumped into the water tank by a water pump and sprayed to the upper surface of the fiber cloth through the spray head, so that the upper surface of the fiber cloth is humidified;

5) loosening the fixing nut, adjusting the distance between the two clamping plates to enable the clamping plates to respectively act on the upper surface and the lower surface of the glass fiber cloth, and when the glass fiber cloth passes through the clamping plates, on one hand, the clamping plates can be used for extruding redundant moisture on the surfaces of the glass fiber cloth to control the humidification humidity of the glass fiber cloth, and on the other hand, the moisture on the upper surface and the lower surface can be uniformly extruded;

6) during the moving process of the glass fiber cloth, the brush on the impurity removing mechanism can intensively store impurities on the upper surface of the glass fiber cloth in the arc-shaped baffle;

7) impurities scraped off when the sponge layer on the movable cylinder rubs with the lower surface of the glass fiber cloth fall into the arc-shaped groove of the arc-shaped plate

Filtering out impurities by using a filter screen;

the water storage device comprises a water storage tank and a cross rod, wherein two ends of the cross rod are respectively positioned on two sides of the inner wall of the water storage tank, a bearing is further arranged on the circumferential outer wall of the cross rod, a movable cylinder is arranged on the bearing and can rotate around the axis of the cross rod in the water storage tank, and a sponge layer is further arranged on the circumferential outer wall of the movable cylinder; movable rods are arranged on two sides of the water storage tank and penetrate into the water storage tank, and a filtering component with an arc-shaped structure is arranged at the tail end of each movable rod in the water storage tank; the top of tank is equipped with a plurality of bracing pieces, and the top of bracing piece is equipped with the roof, is equipped with the gag lever post on the roof, and the gag lever post is vertical to run through on the roof, and the bottom of gag lever post is equipped with the water tank, and the bottom of water tank is equipped with a plurality of shower nozzles, still be equipped with the aqueduct on the lateral wall of tank to aqueduct and water tank intercommunication, be equipped with the water pump on the aqueduct.

Aiming at the problem that when the existing fiber cloth humidifying device humidifies the fiber cloth, a plurality of spray heads are usually arranged on the upper surface of the fiber cloth, the spray heads are used for spraying water on the surface of the fiber cloth to humidify the fiber cloth, but the spray heads spray redundant water which is not absorbed by the fiber cloth on the surface of the fiber cloth and falls to the ground, so that a part of water resource is wasted, meanwhile, the method cannot effectively humidify the lower surface of the fiber cloth, so that the humidification of the fiber cloth is not uniform, the technical scheme is provided with a water storage tank for storing the water required by the humidification of the fiber cloth, when in use, the fiber cloth to be humidified is placed above the water storage tank, the lower surface of the fiber cloth is in contact with a movable cylinder, when the fiber cloth is driven to move by a driving roller, the friction resistance between the fiber cloth and a sponge layer on the movable cylinder is utilized, the movable cylinder is driven to rotate in the water storage tank, a part of the movable cylinder is soaked in water liquid in the water storage tank, a sponge layer is arranged on the outer wall of the circumference of the movable cylinder, the sponge layer is used for adsorbing certain moisture, the movable cylinder is driven to rotate along with the movement of the fiber cloth, the sponge layer adsorbed with the moisture is rotated to be in contact with the lower surface of the fiber cloth, the moisture in the sponge layer is extruded out under the extrusion action of the fiber cloth, the lower surface of the fiber cloth is fully humidified, meanwhile, the excessive moisture extruded out can flow back into the water storage tank, the excessive moisture is recycled, waste of a part of water resources is avoided, meanwhile, a part of moisture in the water storage tank can be pumped into the water guide pipe by the aid of the arranged water pump and enters the water tank, and finally, water in the water tank is sprayed to the upper surface of the fiber cloth through a plurality of spray heads at the bottom, the upper surface of the fiber cloth is humidified, so that the upper surface and the lower surface of the fiber cloth are simultaneously humidified, and the redundant moisture sprayed by the spray head can flow back into the water storage tank, so that the redundant moisture is further recycled; because the surface of fibre cloth adheres to impurity such as line head, in order to avoid fibre cloth lower surface impurity when contacting with the sponge layer, will adhere to impurity on the lower surface and scrape down to the reservoir, lead to impurity to inhale the normal work that influences the water pump in the water pump, the event has set up filter assembly in the reservoir, the impurity that the sponge layer on utilizing the filter assembly that sets up can be to a movable section of thick bamboo scraped and falls is filtered, avoid impurity to drop to in the water of reservoir, thereby the probability of water pump damage has been reduced.

Further, filtering component includes arc, filter screen, the arc is connected with the movable rod, and the filter screen is located the arc of arc, the arc is close to and is equipped with the inclined plane in the activity section of thick bamboo direction end, and the bottom of arc still is equipped with the small opening.

The filter assembly is used for filtering impurities scraped from the lower surface of the fiber cloth by the sponge layer, when the fiber cloth is driven by an external driving roller to move above the water storage tank, the impurities on the lower surface of the fiber cloth are scraped by the friction force between the lower surface of the fiber cloth and the sponge layer, the impurities fall into the arc-shaped groove of the arc-shaped plate and are used for arranging the filter screen in the arc-shaped groove of the arc-shaped plate, so that the impurities and water can be separated, the redundant water flows back into the water storage tank through the filter screen and finally flows back through the leak holes in the arc-shaped plate, and the fallen impurities are separated on the filter screen, so that the impurities are prevented from being mixed and flowing back into the water storage tank; the inclined plane that sets up on the arc can guarantee that impurity drops smoothly to the arc of arc in.

Furthermore, the movable rod is also provided with a first elastic piece which is sleeved on the movable rod, and the first elastic piece is positioned in the water storage pool; still be equipped with first stopper on the movable rod, first stopper passes through the screw thread and is connected with the movable rod to first stopper is located the outside of tank.

In order to ensure that the arranged arc-shaped plate can be attached to the sponge layer on the movable cylinder, the first elastic part is arranged, and the radian plate can be ensured to be attached to the water storage tank after water is absorbed by utilizing the elastic force generated by the first elastic part, so that the condition that the dropped impurities fall to the water storage tank through a gap between the radian plate and the sponge layer is avoided, and the filtering effect of the filtering component on the impurities is improved; simultaneously, in order to avoid the elasticity that first elastic component produced to promote the arc and extrude the moisture of the internal adsorption of sponge layer, the event has still set up first stopper on the movable rod, the maximum displacement volume that the arc extruded the sponge layer can be predetermine to the stopper that utilizes to set up, thereby avoided the whole condition emergence of being extruded of the moisture of sponge layer absorption, the water uptake that utilizes the first stopper that sets up to effectively control the sponge layer simultaneously, and then controlled the humidification humidity of fibre cloth lower surface.

Furthermore, two second limiting blocks are further arranged on the limiting rod and connected with the limiting rod through threads, and the top plate is located between the two second limiting blocks.

Because the gag lever post and the second stopper that set up are used for adjusting the height of water tank to control the shower nozzle and sprayed the moisture coverage area to fibre cloth, and then controlled the humidification humidity of fibre cloth.

Further, still include edulcoration mechanism, edulcoration mechanism includes diaphragm, two connecting rods, cowl, connecting plate, and two connecting rods are located the both sides of diaphragm respectively to the connecting rod is connected with the bracing piece respectively, and cowl is located the bottom of diaphragm, the connecting plate is connected with cowl, and the bottom of connecting plate is equipped with a plurality of brushes.

Because the upper surface of the fiber cloth is adhered with impurities such as dust, thread ends and the like, the impurity removing mechanism for cleaning the impurities on the upper surface of the fiber cloth is arranged, the hairbrush on the connecting plate is positioned on the upper surface of the fiber cloth, and the impurities are intensively blocked in the arc-shaped baffle plate by the hairbrush in the moving process of the fiber cloth, thereby realizing the cleaning of the impurities on the upper surface of the fiber cloth,

further, edulcoration mechanism still includes montant and second elastic component, the montant vertically runs through the diaphragm and is connected with cowl, the second elastic component cover is established on the montant to be located between diaphragm and the radian baffle.

In order to satisfy the fibre cloth use of different thickness, the event has set up the second elastic component, utilizes the second elastic component to produce elasticity and promotes the brush on the connecting plate and laminate all the time on the upper surface of fibre cloth, guarantees to effectively clear up the impurity of the fibre cloth of different thickness.

Furthermore, two clamping plates are arranged between the supporting rods, adjusting rods are arranged on two sides of each clamping plate, strip-shaped openings are formed in the supporting rods, the adjusting rods are inserted into the strip-shaped openings, fixing nuts are arranged on the adjusting rods, and the fixing nuts are located on the outer sides of the supporting rods; the clamping plate is also provided with a plurality of through holes.

For the homogeneity of the moisture of guaranteeing humidification on the upper and lower surface of fibre cloth, the event has still set up two grip blocks, utilize the grip block to act on two upper and lower surfaces of fibre cloth respectively, the humidity of fibre cloth is controlled to the interval between two grip blocks, be located the fibre cloth between two grip blocks at the in-process that removes, the grip block is used in on the fibre cloth and extrudes the upper and lower surface of fibre cloth, its humidity of fibre cloth after can guaranteeing to advance the grip block on the one hand can keep unanimous, on the other hand utilizes the clearance of adjusting between two grip blocks can the grip block to the extrusion intensity of fibre cloth, thereby adjust the water content of fibre cloth, specifically, unscrew the fixation nut on the regulation pole, thereby make the regulation pole on the grip block can be at the intraoral removal of bar on the bracing piece, the regulation to two grip block intervals has been realized.

Compared with the prior art, the invention has the following advantages and beneficial effects:

1. according to the humidifying method during the glass fiber cloth inspection, the sponge layer on the movable barrel is utilized to adsorb water in the storage tank, when the movable barrel is driven to rotate by the movement of the fiber cloth, the water adsorbed by the sponge layer is humidified on the lower surface of the fiber cloth under the action of the fiber cloth extruding the sponge layer, and meanwhile, the water in the storage tank can be sprayed to the upper surface of the fiber cloth through the spray head by utilizing the arranged water pump, so that the upper surface and the lower surface of the fiber cloth are simultaneously humidified, and in the humidifying process, redundant water can flow back into the storage tank, so that the waste of water resources is avoided;

2. according to the humidifying method during the glass fiber cloth inspection, the impurities attached to the lower surface of the fiber cloth can be filtered by the aid of the filter assembly, the impurities are prevented from being mixed into water liquid to influence the normal work of a water pump, and meanwhile, the filter assembly can control the water quantity adsorbed by sponge dust, so that the humidifying humidity of the lower surface of the fiber cloth is controlled;

3. according to the humidifying method for the glass fiber cloth during inspection, the impurities attached to the upper surface of the fiber cloth can be cleaned by the aid of the arranged impurity removing mechanism, and the fiber cloth with different thicknesses can be used;

4. according to the humidifying method for the glass fiber cloth during inspection, the distance between the two clamping plates is adjustable, so that the adjustment of the water content of the upper surface and the lower surface of the fiber cloth is met, and the humidifying uniformity of the fiber cloth can be ensured by using the clamping plates.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

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

FIG. 2 is an enlarged view of part A of the present invention;

FIG. 3 is a side view of the water storage tank of the present invention;

FIG. 4 is a top view of the clamping plate of the present invention;

FIG. 5 is a schematic view of the filter assembly of the present invention;

FIG. 6 is a schematic structural diagram of an impurity removing mechanism according to the present invention.

Reference numbers and corresponding part names in the drawings:

1-a water storage tank, 2-a filtering component, 3-a sponge layer, 4-a cross bar, 5-a movable barrel, 6-a first elastic part, 7-a first limiting block, 8-a water pump, 9-a movable rod, 11-an impurity removing mechanism, 12-a top plate, 13-a spray head, 14-a limiting rod, 15-a water tank, 16-a water guide pipe, 17-a clamping plate, 18-a supporting rod, 19-a through hole, 20-an adjusting rod, 21-an arc plate, 22-a leakage hole, 23-a filter screen, 24-an inclined plane, 25-a connecting rod, 26-a transverse plate, 27-a vertical rod, 28-a second elastic part, 29-an arc baffle, 30-a brush, 31-a connecting plate, 32-a strip-shaped opening and 33-a fixing nut.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

Example 1

As shown in fig. 1 to 6, the humidifying method for glass fiber cloth inspection of the present invention comprises the following steps:

1) placing glass fiber cloth to be humidified on a movable cylinder 5 of the water storage tank 1, and driving the movable cylinder 5 to rotate in the water storage tank 1 under the action of friction force when an external driving roller drives the glass fiber cloth to move;

2) in the process that the movable cylinder 5 rotates in the water storage tank 1, the water in the water storage tank 1 is absorbed in the foam layer 3 of the movable cylinder 5;

3) when the foam layer 3 is in contact with the glass fiber cloth, the water absorbed in the foam layer 3 is extruded out by the extrusion of the glass fiber cloth, and the lower surface of the glass fiber cloth is humidified;

4) meanwhile, water in the water storage tank 1 is pumped into the water tank 15 by a water pump and sprayed to the upper surface of the fiber cloth through the spray head 13, so that the upper surface of the fiber cloth is humidified;

5) loosening the fixing nut 33, adjusting the distance between the two clamping plates 17, so that the clamping plates 17 can respectively act on the upper surface and the lower surface of the glass fiber cloth, when the glass fiber cloth passes through the clamping plates 17, on one hand, the clamping plates 17 can be used for extruding redundant moisture on the surface of the glass fiber cloth, so as to control the humidifying humidity of the glass fiber cloth, and on the other hand, the moisture on the upper surface and the lower surface can be uniformly extruded;

6) in the moving process of the glass fiber cloth, the brush 30 on the impurity removing mechanism 11 can intensively store impurities on the upper surface of the glass fiber cloth in the arc-shaped baffle plate 29;

7) impurities scraped off when the sponge layer 3 on the movable cylinder 5 is rubbed with the lower surface of the glass fiber cloth fall into the arc-shaped groove of the arc-shaped plate 21, and are filtered out by using the filter screen 23;

the water storage device comprises a water storage tank 1 and a cross rod 4, wherein two ends of the cross rod 4 are respectively positioned on two sides of the inner wall of the water storage tank 1, a bearing is further arranged on the outer circumferential wall of the cross rod 4, a movable cylinder 5 is arranged on the bearing, the movable cylinder 5 can rotate around the axis of the cross rod 4 in the water storage tank 1, and a sponge layer 3 is further arranged on the outer circumferential wall of the movable cylinder 5; two sides of the water storage tank 1 are respectively provided with a movable rod 9, the movable rods 9 penetrate into the water storage tank 1, and the tail end of each movable rod 9, which is positioned in the water storage tank 1, is provided with a filtering component 2 with an arc structure; the top of tank 1 is equipped with a plurality of bracing pieces 18, and the top of bracing piece 18 is equipped with roof 12, is equipped with gag lever post 14 on the roof 12, and gag lever post 14 is vertical to be run through on roof 12, and the bottom of gag lever post 14 is equipped with water tank 15, and the bottom of water tank 15 is equipped with a plurality of shower nozzles 13, still be equipped with aqueduct 16 on the lateral wall of tank 1 to aqueduct 16 and water tank 15 intercommunication, be equipped with water pump 8 on the aqueduct 16.

Example 2

On the basis of embodiment 1, filtering component 2 includes arc 21, filter screen 23, arc 21 is connected with movable rod 9, and filter screen 23 is located the arc of arc 21, arc 21 is close to and is equipped with inclined plane 24 in the end of 5 directions of movable cylinder, and the bottom of arc 21 still is equipped with small opening 22.

Example 3

On the basis of the embodiment 2, the movable rod 9 is further provided with a first elastic element 6, the first elastic element 6 is sleeved on the movable rod 9, and the first elastic element 6 is positioned in the water storage tank 1; the movable rod 9 is further provided with a first limiting block 7, the first limiting block 7 is connected with the movable rod 9 through threads, and the first limiting block 7 is located on the outer side of the water storage tank 1.

Example 4

On the basis of embodiment 1, two second limiting blocks are further arranged on the limiting rod 14, the second limiting blocks are connected with the limiting rod 14 through threads, and the top plate 12 is located between the two second limiting blocks.

Example 5

On embodiment 1's basis, still include edulcoration mechanism 11, edulcoration mechanism 11 includes diaphragm 26, two connecting rods 25, cowl 29, connecting plate 31, and two connecting rods 25 are located the both sides of diaphragm 26 respectively to connecting rod 25 is connected with bracing piece 18 respectively, and cowl 29 is located the bottom of diaphragm 26, connecting plate 31 is connected with cowl 29, and the bottom of connecting plate 31 is equipped with a plurality of brushes 30.

Example 6

On the basis of embodiment 5, the impurity removing mechanism 11 further comprises a vertical rod 27 and a second elastic member 28, wherein the vertical rod 27 vertically penetrates through the transverse plate 26 to be connected with the arc-shaped baffle 29, and the second elastic member 28 is sleeved on the vertical rod 27 and is located between the transverse plate 26 and the arc-shaped baffle 29.

Example 7

On the basis of embodiment 1, still be equipped with two grip blocks 17 between the bracing piece 18, the both sides of grip block 17 all are equipped with adjusting rod 20, still be equipped with bar mouth 32 on the bracing piece 18, adjusting rod 20 all alternates in bar mouth 32, all be equipped with fixation nut 33 on adjusting rod 20 to fixation nut 33 is located the outside of bracing piece 18.

Example 8

On the basis of embodiment 7, the clamping plate 17 is further provided with a plurality of through holes 19.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A humidifying method for glass fiber cloth during inspection is characterized by comprising the following steps:

1) placing glass fiber cloth to be humidified on a movable cylinder (5) of a water storage tank (1), and driving the movable cylinder (5) to rotate in the water storage tank (1) under the action of friction force when an external driving roller drives the glass fiber cloth to move;

2) in the process that the movable cylinder (5) rotates in the water storage tank (1), water in the water storage tank (1) is adsorbed in the foam layer (3) of the movable cylinder (5);

3) when the foam layer (3) is in contact with the glass fiber cloth, the glass fiber cloth extrudes the water absorbed in the foam layer (3) to humidify the lower surface of the glass fiber cloth;

4) meanwhile, water in the water storage tank (1) is pumped into the water tank (15) by using a water pump and is sprayed to the upper surface of the fiber cloth through the spray head (13), so that the upper surface of the fiber cloth is humidified;

5) the fixing nut (33) is unscrewed, the distance between the two clamping plates (17) is adjusted, so that the clamping plates (17) can respectively act on the upper surface and the lower surface of the glass fiber cloth, when the glass fiber cloth passes through the clamping plates (17), on one hand, the clamping plates (17) can be utilized to extrude out the redundant moisture on the surface of the glass fiber cloth, and the humidifying humidity of the glass fiber cloth is controlled,

on the other hand, the water on the upper surface and the lower surface can be uniformly extruded;

6) in the moving process of the glass fiber cloth, the brush (30) on the impurity removing mechanism (11) can intensively store impurities on the upper surface of the glass fiber cloth in the arc-shaped baffle (29);

7) impurities scraped off when the sponge layer (3) on the movable cylinder (5) is rubbed with the lower surface of the glass fiber cloth fall into the arc-shaped groove of the arc-shaped plate (21), and the impurities are filtered out by using the filter screen (23);

the water storage device comprises a water storage pool (1) and a cross rod (4), wherein two ends of the cross rod (4) are respectively positioned on two sides of the inner wall of the water storage pool (1), a bearing is further arranged on the outer wall of the circumference of the cross rod (4), a movable cylinder (5) is arranged on the bearing, the movable cylinder (5) can rotate around the axis of the cross rod (4) in the water storage pool (1), and a sponge layer (3) is further arranged on the outer wall of the circumference of the movable cylinder (5); two sides of the water storage tank (1) are respectively provided with a movable rod (9), the movable rods (9) penetrate into the water storage tank (1), and the tail end of each movable rod (9) in the water storage tank (1) is provided with a filtering component (2) with an arc-shaped structure; the top of tank (1) is equipped with a plurality of bracing pieces (18), and the top of bracing piece (18) is equipped with roof (12), is equipped with gag lever post (14) on roof (12), and gag lever post (14) are vertical to be run through on roof (12), and the bottom of gag lever post (14) is equipped with water tank (15), and the bottom of water tank (15) is equipped with a plurality of shower nozzles (13), still be equipped with aqueduct (16) on the lateral wall of tank (1) to aqueduct (16) and water tank (15) intercommunication, be equipped with water pump (8) on aqueduct (16).

2. The humidifying method for glass fiber cloth during inspection according to claim 1, wherein the filtering assembly (2) comprises an arc-shaped plate (21) and a filtering net (23), the arc-shaped plate (21) is connected with the movable rod (9), the filtering net (23) is positioned in an arc-shaped groove of the arc-shaped plate (21), an inclined surface (24) is arranged at the end of the arc-shaped plate (21) close to the direction of the movable cylinder (5), and a leak hole (22) is further arranged at the bottom of the arc-shaped plate (21).

3. The humidifying method for the glass fiber cloth during the inspection according to claim 1, wherein the movable rod (9) is further provided with a first elastic member (6), the first elastic member (6) is sleeved on the movable rod (9), and the first elastic member (6) is positioned in the water storage tank (1); still be equipped with first stopper (7) on movable rod (9), first stopper (7) are connected with movable rod (9) through the screw to first stopper (7) are located the outside of tank (1).

4. The humidifying method for glass fiber cloth inspection according to claim 1, wherein two second limit blocks are further arranged on the limit rod (14), the second limit blocks are connected with the limit rod (14) through threads, and the top plate (12) is located between the two second limit blocks.

5. The humidifying method for glass fiber cloth during inspection according to claim 1, further comprising an impurity removing mechanism (11), wherein the impurity removing mechanism (11) comprises a transverse plate (26), two connecting rods (25), an arc-shaped baffle (29) and a connecting plate (31), the two connecting rods (25) are respectively located on two sides of the transverse plate (26), the connecting rods (25) are respectively connected with the supporting rods (18), the arc-shaped baffle (29) is located at the bottom of the transverse plate (26), the connecting plate (31) is connected with the arc-shaped baffle (29), and a plurality of brushes (30) are arranged at the bottom of the connecting plate (31).

6. The humidifying method for glass fiber cloth inspection according to claim 5, wherein the impurity removing mechanism (11) further comprises a vertical rod (27) and a second elastic member (28), the vertical rod (27) vertically penetrates through the transverse plate (26) to be connected with the arc-shaped baffle plate (29), and the second elastic member (28) is sleeved on the vertical rod (27) and is located between the transverse plate (26) and the arc-shaped baffle plate (29).

7. The humidifying method for glass fiber cloth inspection according to claim 1, wherein two clamping plates (17) are further arranged between the supporting rods (18), adjusting rods (20) are respectively arranged on two sides of each clamping plate (17), strip-shaped openings (32) are further formed in the supporting rods (18), the adjusting rods (20) are respectively inserted into the strip-shaped openings (32), fixing nuts (33) are respectively arranged on the adjusting rods (20), and the fixing nuts (33) are located on the outer sides of the supporting rods (18).

8. The humidifying method for inspecting glass fiber cloth as claimed in claim 7, wherein the holding plate (17) is further provided with a plurality of through holes (19).