CN115449977A - Automatic antibacterial treatment equipment and process for linen fabric - Google Patents

Abstract

The invention discloses an automatic antibacterial treatment device and process for flax fabric, and belongs to the technical field of fabric treatment.

Description

Automatic antibacterial treatment equipment and process for linen fabric

Technical Field

The invention relates to the technical field of fabric treatment, in particular to automatic antibacterial treatment equipment and process for flax fabric.

Background

After the flax fabric is produced and before the flax fabric is used, the raw material of the flax fabric contains various bacteria, so that the flax fabric needs to be subjected to antibacterial treatment.

In traditional antibiotic processing flow, the surface fabric that the process antibacterial agent soaked because antibacterial agent is basicity, the surface fabric after the inevitable processing has basicity, and this kind of surface fabric directly uses, causes certain injury to people's skin easily to in traditional processing procedure, the surface fabric after soaking the antibacterial agent directly carries out the solidification of antimicrobial composition in the antibacterial agent through the mode of drying, make alkaline substance volatilize in the air, produce the injury to the staff.

Based on the technical scheme, the invention designs automatic antibacterial treatment equipment and process for flax fabrics so as to solve the problems.

Disclosure of Invention

The invention aims to provide automatic antibacterial treatment equipment and process for linen fabric, and aims to solve the problems that in the traditional antibacterial treatment process provided in the background art, the fabric soaked by an antibacterial agent is easy to cause certain damage to human skin because the antibacterial agent is alkaline and the fabric subjected to inevitable treatment is alkaline, and in the traditional treatment process, the fabric soaked by the antibacterial agent is directly subjected to solidification of antibacterial components in the antibacterial agent in a drying mode, so that alkaline substances are volatilized into the air, and workers are injured.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a flax fabric's automatic antibiotic treatment facility, includes fixed establishment, soaks the mechanism, annotates material mechanism, stoving mechanism, external material mechanism, external winding mechanism and flax fabric of rolling out, it sets up in the fixed establishment upper end to soak the mechanism, stoving mechanism is fixed to be set up and is soaking the mechanism right side, material mechanism sets up and soaks the mechanism left side in going out, winding mechanism sets up on stoving mechanism right side, annotate the material mechanism and set up and soak the mechanism below, it is sealed to soak the mechanism, annotate material mechanism and be arranged in continuously replenishing the antiseptic to sealed soaking mechanism, annotate material mechanism and can pour into the neutralizer into to stoving mechanism according to the output quantity equal proportion of antiseptic.

As a further scheme of the invention, the soaking mechanism comprises an upper shell, the lower end of the upper shell is fixedly and hermetically connected with a lower shell, the middle position of the inner wall of the lower shell is rotatably connected with a first transmission roller, the upper side and the lower side of the inner wall of the two ends of the lower shell are respectively and rotatably connected with a second transmission roller and a third transmission roller, the second transmission roller and the third transmission roller are respectively and movably connected with the end parts of the upper shell and the lower shell in a sealing manner, and the first transmission roller, the second transmission roller and the third transmission roller are externally connected with transmission motors.

As a further scheme of the invention, the drying mechanism comprises a sealing shell, the sealing shell is fixedly connected with the right end of the lower shell, the left side wall of the sealing shell is connected with the side wall of the second driving roller on the right side in a sliding and sealing manner, the lower end of the sealing shell is fixedly connected with a steam disperser, the lower end of the steam disperser is fixedly communicated with a first pipeline, the lower end of the first pipeline is fixedly communicated with a steam generator, the side wall of the first pipeline is embedded with an atomizing head in a penetrating manner, the atomizing head is fixedly communicated with a second pipeline, and the second pipeline is communicated with the material injection mechanism.

As a further scheme of the present invention, the material injection mechanism includes first hydraulic pipes symmetrically arranged left and right, upper ends of the first hydraulic pipes are fixedly communicated with a lower end of the upper housing, a second hydraulic pipe is arranged behind the first hydraulic pipes, an upper end of the second hydraulic pipe is closed, the second hydraulic pipe is fixedly connected with the fixing mechanism, pistons are slidably connected in the first hydraulic pipes and the second hydraulic pipes, lower ends of the pistons are fixedly connected with straight rods, a lower end of each straight rod is provided with a driving mechanism, an upper end of the second hydraulic pipe is fixedly communicated with a third pipeline, the third pipeline is communicated with the second pipeline, upper ends of side walls of the first hydraulic pipes and the second hydraulic pipes are externally connected with a material supplement mechanism, lower ends of the straight rods on the same side are fixedly connected with a connecting rod together, the driving mechanism is used for driving the connecting rods on the left side and the right side to perform vertical reciprocating variable speed motions with opposite displacement, the material supplement mechanism is used for injecting corresponding raw materials into the first hydraulic pipes and the second hydraulic pipes, upper ends of the first hydraulic pipes are fixedly connected with the first hydraulic pipes, and a second one-way valve is fixedly connected in the third pipeline.

As a further scheme of the invention, the driving mechanism comprises a fixed frame, a first mounting rod is fixedly connected to the upper end of the fixed frame, a first gear is rotatably connected to the front end of the first mounting rod, first racks are respectively engaged on the left side and the right side of the first gear, the upper end of each first rack is fixedly connected to a connecting rod on the same side, and a reciprocating rotation mechanism is arranged at the upper end of the fixed frame and used for driving the first gear to rotate in a reciprocating manner.

As a further scheme of the present invention, the reciprocating rotation mechanism includes a second mounting rod, the second mounting rod is fixedly connected to the rear side of the upper end of the fixing frame, the rear end of the second mounting rod is fixedly connected to a motor with a fixed output torque, the front end of the second mounting rod is rotatably connected to a connecting rod, the end of the connecting rod is connected to a sliding rod, a third mounting rod is disposed between the second mounting rod and the first mounting rod, the front end of the third mounting rod is rotatably connected to a second gear, the front end of the third mounting rod is fixedly connected to a fourth mounting rod below the second gear, the upper end of the fourth mounting rod is transversely slidably connected to a second rack, the second rack is engaged with the second gear, the second gear is fixedly connected to a transmission shaft, the transmission shaft penetrates through the first mounting rod and is fixedly connected to the first gear, the rear end surface of the second rack is vertically and fixedly connected to a sliding rail, and the sliding rod is vertically and slidably connected to the sliding rail.

As a further aspect of the present invention, a fifth installation rod is fixedly connected in the first pipeline, and an upper end of the fifth installation rod is rotatably connected with a fan.

An automatic antibacterial treatment process of flax fabrics, which is suitable for the claimed automatic antibacterial treatment equipment of flax fabrics, and is characterized in that; the process comprises the following steps:

s1, allowing the linen fabric to enter a soaking mechanism from the left end of the soaking mechanism for permeation of an antibacterial agent, leaving the soaking mechanism from the right end of the soaking mechanism, and allowing the linen fabric to enter a drying mechanism for drying;

s2, injecting a neutralizing agent into the drying mechanism in proportion to the consumption of the antibacterial agent by the material injection mechanism;

and S3, uniformly spraying a neutralizing agent on the flax fabric by the drying mechanism, and carrying out acid-base neutralization on the flax fabric.

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

1. according to the invention, the material injection mechanism is arranged, the neutralizer is injected into the drying mechanism, and the injection amount of the neutralizer is equal to the consumption of the antibacterial agent in proportion, so that the neutralization degree is ensured, the unevenness of acid and alkali raw materials on the flax fabric is avoided, the acid-base neutralization is carried out on the flax fabric, the pollution of air and the injury to staff caused by gas discharged in the drying process of the drying mechanism are avoided, and meanwhile, the injury to a user caused by the imbalance of acid and alkali to the flax fabric is avoided.

2. According to the invention, the neutralizer is directly injected into the second pipeline in the form of water mist, so that the neutralizer can be fully mixed with steam in the process of flowing along with the steam, and further uniformly permeates flax fabric in the form of gas, so that the acid-base neutralization process is more full and uniform.

3. According to the invention, the output of the antibacterial agent and the output of the neutralizing agent are in a direct proportional relation and are in a stable proportion in a mode of synchronous movement of the pistons in the first hydraulic pipe and the second hydraulic pipe, and meanwhile, the antibacterial agent consumption detection reaction of the equipment is faster in a mode of continuously pressurizing the antibacterial agent injected into the upper shell and the lower shell, and meanwhile, the hydraulic pressure of the antibacterial agent in the upper shell and the lower shell is enhanced, so that the speed of immersing the flax fabric into the antibacterial agent is accelerated.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic front sectional view of the overall structure of the present invention;

FIG. 3 is a schematic side sectional view of a fixing frame of the injection mechanism;

FIG. 4 is an enlarged view of the structure at A in FIG. 3;

FIG. 5 is a schematic side sectional view of the connecting rod of the injection mechanism;

FIG. 6 is a schematic side sectional view of a slide bar of the injection mechanism;

FIG. 7 is a process flow diagram of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

flax fabric 1, upper shell 21, lower shell 22, first driving roller 23, second driving roller 24, third driving roller 25, seal shell 31, steam disperser 32, first pipeline 33, steam generator 34, spray head 35, second pipeline 36, first hydraulic pipe 41, second hydraulic pipe 42, piston 43, straight rod 44, third pipeline 45, connecting rod 46, first check valve 48, second check valve 49, fixing frame 51, first mounting rod 52, first gear 53, first rack 54, second mounting rod 61, motor 62, connecting rod 63, slide bar 64, third mounting rod 65, second gear 66, fourth mounting rod 67, second rack 68, transmission shaft 69, slide rail 610, fifth mounting rod 71 and fan 72.

Detailed Description

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a flax fabric's automatic antibiotic treatment facility, includes fixed establishment, soaks the mechanism, annotates material mechanism, stoving mechanism, external material mechanism, external winding mechanism and flax fabric 1 of rolling up of going out, soak the mechanism setting in the fixed establishment upper end, stoving mechanism is fixed to be set up and is soaking the mechanism right side, it sets up in soaking the mechanism left side to go out material mechanism, winding mechanism sets up on stoving mechanism right side, annotate the material mechanism and set up and soak the mechanism below, it is sealed to soak the mechanism, annotate material mechanism and be arranged in continuously replenishing the antibacterial agent to sealed soaking mechanism, annotate material mechanism and can annotate the neutralizer according to the output quantity equal proportion of antibacterial agent in to stoving mechanism.

During operation, flax fabric 1 is rolled up the material by the play and is rolled up the continuous ejection of compact in the mechanism, flax fabric 1 gets into by soaking the mechanism left end and carries out the infiltration of antiseptic in soaking the mechanism, leave soaking the mechanism by soaking the mechanism right-hand member again, and get into drying mechanism and dry, annotate simultaneously that the material mechanism pours into the neutralizer equal proportion with the consumption of antiseptic into in drying mechanism, can spray evenly on flax fabric 1 through drying mechanism, carry out acid-base neutralization to flax fabric 1, avoid drying mechanism stoving in-process combustion gas air and injury staff, also make flax fabric 1 can not cause the injury to the user because of acid-base disequilibrium simultaneously.

According to the invention, the material injection mechanism is arranged, the neutralizer is injected into the drying mechanism, the injection amount of the neutralizer is equal to the consumption of the antibacterial agent in proportion, so that the neutralization degree is ensured, the unevenness of acid and alkali raw materials on the flax fabric 1 is avoided, the acid and alkali neutralization is carried out on the flax fabric 1, the air pollution and the injury to staff caused by gas exhausted in the drying process of the drying mechanism are avoided, and meanwhile, the injury to a user caused by the imbalance of acid and alkali to the flax fabric 1 is avoided.

As a further scheme of the invention, the soaking mechanism comprises an upper shell 21, the lower end of the upper shell 21 is fixedly and hermetically connected with a lower shell 22, a first transmission roller 23 is rotatably connected to the middle position of the inner wall of the lower shell 22, the upper side and the lower side of the inner wall of the two ends of the lower shell 22 are respectively and rotatably connected with a second transmission roller 24 and a third transmission roller 25, the second transmission roller 24 and the third transmission roller 25 are respectively and movably connected with the end parts of the upper shell 21 and the lower shell 22 in a sealing manner, and the first transmission roller 23, the second transmission roller 24 and the third transmission roller 25 are externally connected with a transmission motor.

During operation, the flax fabric 1 enters the soaking mechanism from the position between the second driving roller 24 and the third driving roller 25 at the left end, and then leaves the soaking mechanism from the position between the second driving roller 24 and the third driving roller 25 at the right end around the first driving roller 23, in the process, the flax fabric 1 is squeezed by the second driving roller 24 and the third driving roller 25 together, so that when the flax fabric 1 enters the soaking mechanism, air in the flax fabric 1 is squeezed out, then the flax fabric 1 enters the soaking mechanism, the flax fabric 1 expands under the action of self elasticity (the flax fabric 1 can be compressed under the extrusion of the soaking mechanism), in addition, negative pressure is formed inside the flax fabric 1 in the expansion process, the antibacterial agent is sucked into the flax fabric 1, the soaking process is accelerated, the working efficiency is improved, meanwhile, when the flax fabric 1 leaves the soaking mechanism, the second driving roller 24 and the third driving roller 25 at the right end are squeezed together, so that redundant antibacterial agent in the flax fabric 1 is discharged, the waste of the antibacterial agent on the flax fabric 1 is reduced, and the consumption of a subsequent drying mechanism is reduced.

In a further aspect of the present invention, the drying mechanism includes a sealing shell 31, the sealing shell 31 is fixedly connected to the right end of the lower housing 22, the left side wall of the sealing shell 31 is connected to the side wall of the second driving roller 24 on the right side in a sliding and sealing manner, the lower end of the sealing shell 31 is fixedly connected to a steam disperser 32, the lower end of the steam disperser 32 is fixedly communicated with a first pipeline 33, the lower end of the first pipeline 33 is fixedly communicated with a steam generator 34, the side wall of the first pipeline 33 is embedded with a spray head 35 in a penetrating manner, the spray head 35 is fixedly communicated with a second pipeline 36, and the second pipeline 36 is communicated with the material injection mechanism.

During operation, the neutralizing agent is injected into the second pipeline 36 by the injecting mechanism, then the neutralizing agent is atomized by the atomizing head 35 and sprayed into the first pipeline 33, meanwhile, the steam generator 34 continuously generates steam to enter the first pipeline 33, the steam generator carries the atomized neutralizing agent sprayed into the first pipeline 33 to enter the steam disperser 32, mixed gas of the steam and the neutralizing agent is dispersed by the steam disperser 32, the mixed gas uniformly enters the sealing shell 31, and then the mixed gas flows through the flax fabric 1 to dry the flax fabric 1 and neutralize acid and alkali.

According to the invention, the neutralizer is directly injected into the second pipeline 36 in the form of water mist, so that the neutralizer can be fully mixed with steam in the process of flowing along with the steam, and further uniformly permeates the flax fabric 1 in the form of gas, so that the acid-base neutralization process is more full and uniform.

As a further aspect of the present invention, the material injection mechanism includes first hydraulic pipes 41 symmetrically arranged left and right, upper ends of the first hydraulic pipes 41 are fixedly communicated with a lower end of the upper housing 21, second hydraulic pipes 42 are arranged behind the first hydraulic pipes 41, upper ends of the second hydraulic pipes 42 are closed, the second hydraulic pipes 42 are fixedly connected with a fixing mechanism, pistons 43 are slidably connected in the first hydraulic pipes 41 and the second hydraulic pipes 42, lower ends of the pistons 43 are fixedly connected with straight rods 44, lower ends of the straight rods 44 are provided with a driving mechanism, upper ends of the second hydraulic pipes 42 are fixedly communicated with third pipes 45, the third pipes 45 are communicated with the second pipes 36, upper ends of side walls of the first hydraulic pipes 41 and the second hydraulic pipes 42 are provided with material supplement mechanisms, lower ends of the straight rods 44 on the same side are fixedly connected with connecting rods 46 together, the driving mechanism is used for driving the connecting rods 46 on left and right sides to perform vertical reciprocating variable speed motions with opposite directions, the material supplement mechanisms are used for injecting corresponding raw materials into the first hydraulic pipes 41 and the second hydraulic pipes 42, upper ends of the first hydraulic pipes 41 are fixedly connected with the second hydraulic pipes 41, and inner ends of the second hydraulic pipes 49 are fixedly connected with the second hydraulic pipes.

When the device works, the first hydraulic pipe 41 is used for storing an antibacterial agent, the second hydraulic pipe 42 is used for storing a neutralizing agent, the corresponding material supplementing mechanism on the first hydraulic pipe 41 is used for injecting the antibacterial agent into the first hydraulic pipe 41, and the material supplementing mechanism on the second hydraulic pipe 42 is used for injecting the neutralizing agent into the second hydraulic pipe 42; in the process that the driving mechanism drives the connecting rods 46 on the left side and the right side to vertically reciprocate in opposite directions, taking the upward movement of the connecting rod 46 on the left side as an example, the driving mechanism applies an upward force to the connecting rod 46 on the left side, so that the two straight rods 44 on the left side have a tendency of driving the piston 43 on the left side to move upward, and further, the antibacterial agent in the first hydraulic pipe 41 keeps a tendency of flowing into the upper shell 21 and the lower shell 22, when the antibacterial agent in the upper shell 21 and the lower shell 22 is consumed, a new space for the antibacterial agent to flow into is formed in the upper shell 21 and the lower shell 22, so that the piston 43 can move upward by a displacement corresponding to the consumption of the antibacterial agent, and the neutralizing agent in the corresponding second hydraulic pipe 42 is pushed into the spray head 35 by the piston 43 and enters the first pipeline 33; correspondingly, the right piston 43 moves in an equivalent displacement with the left piston 43, so that the space in the first hydraulic pipe 41 and the second hydraulic pipe 42 on the right side is increased to form negative pressure, and then the corresponding raw material is sucked from the corresponding feed supplement mechanism (under the action of the first check valve 48, the antibacterial agent in the upper shell 21 and the lower shell 22 cannot enter the first hydraulic pipe 41, and under the action of the second check valve 49, the neutralizing agent in the third pipeline 45 cannot enter the second hydraulic pipe 42, so that the first hydraulic pipe 41 and the second hydraulic pipe 42 can only suck the corresponding raw material from the feed supplement mechanism); then, when the left end piston 43 moves up to the upper ends of the first hydraulic pipe 41 and the second hydraulic pipe 42, the driving mechanism switches the driving direction, so that the left connecting rod 46 moves downward, the right connecting rod 46 moves upward, and the process is repeated.

According to the invention, the output of the antibacterial agent and the output of the neutralizing agent are in a direct proportional relationship and the proportion is stable in a mode of synchronous movement of the pistons 43 in the first hydraulic pipe 41 and the second hydraulic pipe 42, and meanwhile, the antibacterial agent is injected into the upper shell 21 and the lower shell 22 by continuously pressurizing, so that the consumption detection reaction of the antibacterial agent by the equipment is firstly faster, and meanwhile, the hydraulic pressure of the antibacterial agent in the upper shell 21 and the lower shell 22 is enhanced, and further, the speed of immersing the flax fabric 1 into the antibacterial agent is accelerated.

As a further scheme of the present invention, the driving mechanism includes a fixed frame 51, the upper end of the fixed frame 51 is fixedly connected with a first installation rod 52, the front end of the first installation rod 52 is rotatably connected with a first gear 53, the left and right sides of the first gear 53 are both engaged with first racks 54, the upper ends of the first racks 54 are respectively and fixedly connected with the connecting rods 46 on the same side, and the upper end of the fixed frame 51 is provided with a reciprocating rotation mechanism, which is used for driving the first gear 53 to rotate in a reciprocating manner.

During operation, in the rotating process of the first gear 53, the first racks 54 on the two sides are driven to perform vertical motion with opposite directions and same speed, the reciprocating rotation mechanism drives the first gear 53 to rotate in a reciprocating manner, so that the first racks 54 on the two sides perform reciprocating vertical motion with opposite directions and same speed, and the first racks 54 on the two sides drive the connecting rod 46 to perform reciprocating vertical motion with opposite directions and same speed; and because the first gear 53 and the first rack 54 are driven by mutual pushing between the fixed teeth, when the first racks 54 on both sides move in the direction, the error return to zero can be performed by using the transmission characteristics of the first gear 53 and the first rack 54, so that after the first racks 54 on both sides work for a long time, the distance from the upper end of one first rack 54 to the first gear 53 can be kept to be the same as the distance from the lower end of the other first rack 54 to the first gear 53, and further, when the piston 43 on one side pushes the material, the piston 43 on the other side is ensured to be sucking the material, so that the first hydraulic pipe 41 and the second hydraulic pipe 42 on both sides alternately push the material stably.

As a further aspect of the present invention, the reciprocating rotation mechanism includes a second mounting rod 61, the second mounting rod 61 is fixedly connected to the rear side of the upper end of the fixed frame 51, the rear end of the second mounting rod 61 is fixedly connected to a motor 62 with a fixed output torque, the front end of the second mounting rod 61 is rotatably connected to a connecting rod 63, the end of the connecting rod 63 is connected to a sliding rod 64, a third mounting rod 65 is disposed between the second mounting rod 61 and the first mounting rod 52, the front end of the third mounting rod 65 is rotatably connected to a second gear 66, the front end of the third mounting rod 65 is fixedly connected to a fourth mounting rod 67 below the second gear 66, the upper end of the fourth mounting rod 67 is transversely slidably connected to a second rack 68, the second rack 68 is engaged with the second gear 66, the second gear 66 is fixedly connected to a transmission shaft 69, the transmission shaft 69 penetrates through the first mounting rod 52 and is fixedly connected to the first gear 53, the rear end surface of the second rack 68 is vertically fixedly connected to a sliding rail 610, and the sliding rod 64 is vertically slidably connected to a sliding rail 610.

During operation, the motor 62 applies a constant torque to the connecting rod 63 to rotate the connecting rod 63, and during the rotation of the connecting rod 63, the distance from the sliding rod 64 on the connecting rod 63 to the second mounting rod 61 changes, so that the sliding rod 64 can drive the sliding rail 610 and the second rack 68 to move transversely, the further connecting rod 63 drives the second rack 68 to reciprocate through rotation, the second gear 66 rotates in a reciprocating manner, and the further second gear 66 drives the first rack 54 to reciprocate in the same size and opposite directions.

According to the invention, the motor 62 applies a constant moment to the connecting rod 63 to drive the piston 43, so that the amount of raw materials injected by the movement of the piston 43 can be the same as the consumption amount, and the piston 43 corresponding to the consumed raw materials can inject more raw materials, so that the precision of the equipment is higher, and the precision of elements does not need to be additionally increased, thereby increasing the cost of the equipment.

In a further aspect of the present invention, a fifth mounting rod 71 is fixedly connected to the first duct 33, and a fan 72 is rotatably connected to an upper end of the fifth mounting rod 71.

When the device works, the mixed air flow of the neutralizing agent and the steam flows through the fan 72 to drive the fan 72 to rotate, and the mixed air flow is stirred in the rotating process of the fan 72, so that the mixed air flow is mixed more uniformly.

An automatic antibacterial treatment process of flax fabric comprises the following steps:

s1, allowing the linen fabric 1 to enter a soaking mechanism from the left end of the soaking mechanism for permeation of an antibacterial agent, leaving the soaking mechanism from the right end of the soaking mechanism, and allowing the linen fabric to enter a drying mechanism for drying;

s2, injecting a neutralizer in proportion to the consumption of the antibacterial agent into the drying mechanism by the material injection mechanism;

and S3, uniformly spraying a neutralizing agent on the flax fabric 1 by the drying mechanism, and carrying out acid-base neutralization on the flax fabric 1.

Claims (8)

1. The utility model provides a flax fabric's automatic antibiotic treatment facility which characterized in that: including fixed establishment, soak the mechanism, annotate material mechanism, stoving mechanism, external material mechanism, external winding mechanism and flax fabric (1) of rolling out, it sets up in the fixed establishment upper end to soak the mechanism, stoving mechanism is fixed to be set up and soaks the mechanism right side, it sets up and soaks the mechanism left side to roll out material mechanism, winding mechanism sets up on stoving mechanism right side, annotate material mechanism and set up and soak the mechanism below, it is sealed to soak the mechanism, annotate material mechanism and be arranged in continuously replenishing the antiseptic to sealed soaking mechanism, annotate material mechanism and can pour into the neutralizer into to stoving mechanism according to the output amount equal proportion of antiseptic.

2. The automatic antibacterial treatment equipment of flax fabrics of claim 1, characterized by: soaking mechanism includes casing (21), go up casing (21) lower extreme fixed seal and be connected with casing (22) down, casing (22) inner wall intermediate position rotates down and is connected with first driving roller (23), the upper and lower side of casing (22) both ends inner wall is equallyd divide and is do not rotated and be connected with second driving roller (24) and third driving roller (25) down, second driving roller (24) and third driving roller (25) all with last casing (21) and casing (22) tip seal swing joint down, first driving roller (23), second driving roller (24) and third driving roller (25) are all external to have drive motor.

3. The automatic antibacterial treatment equipment for flax fabrics of claim 2 is characterized in that: drying mechanism is including sealed shell (31), sealed shell (31) and lower casing (22) right-hand member fixed connection, second driving roller (24) lateral wall sliding seal on sealed shell (31) left side wall and right side is connected, sealed shell (31) lower extreme fixedly connected with steam deconcentrator (32), the fixed intercommunication of steam deconcentrator (32) lower extreme has first pipeline (33), the fixed intercommunication of first pipeline (33) lower extreme has steam generator (34), first pipeline (33) lateral wall runs through to be inlayed and is equipped with atomising head (35), the fixed intercommunication of atomising head (35) has second pipeline (36), second pipeline (36) and notes material mechanism intercommunication.

4. The automatic antibacterial treatment equipment of flax fabric according to claim 3, characterized in that: the material injection mechanism comprises first hydraulic pipes (41) which are arranged in bilateral symmetry, the upper ends of the first hydraulic pipes (41) are fixedly communicated with the lower end of the upper shell (21), a second hydraulic pipe (42) is arranged behind the first hydraulic pipe (41), the upper end of the second hydraulic pipe (42) is closed, the second hydraulic pipe (42) is fixedly connected with a fixing mechanism, the first hydraulic pipe (41) and the second hydraulic pipe (42) are both connected with a piston (43) in a sliding way, the lower ends of the pistons (43) are fixedly connected with straight rods (44), the lower end of the straight rod (44) is provided with a driving mechanism, the upper end of the second hydraulic pipe (42) is fixedly communicated with a third pipeline (45), the third pipeline (45) is communicated with the second pipeline (36), the upper ends of the side walls of the first hydraulic pipe (41) and the second hydraulic pipe (42) are externally connected with a material supplementing mechanism, the lower ends of the straight rods (44) on the same side are fixedly connected with a connecting rod (46) together, the driving mechanism is used for driving the connecting rods (46) at the left side and the right side to perform vertical reciprocating variable speed motion with opposite displacement directions, the feed supplementing mechanism is used for injecting corresponding raw materials into the first hydraulic pipe (41) and the second hydraulic pipe (42), the upper end of the first hydraulic pipe (41) is fixedly connected with the first hydraulic pipe (41), a second one-way valve (49) is fixedly connected in the third pipeline (45).

5. The automatic antibacterial treatment equipment of flax fabric according to claim 4, characterized in that: actuating mechanism includes mount (51), the first installation pole (52) of mount (51) upper end fixedly connected with, first installation pole (52) front end rotates and is connected with first gear (53), first gear (53) left and right sides all meshes has first rack (54), first rack (54) upper end respectively with connecting rod (46) fixed connection of homonymy, mount (51) upper end is provided with reciprocating rotation mechanism, reciprocating rotation mechanism is used for driving first gear (53) reciprocating rotation.

6. The automatic antibacterial treatment equipment of flax fabric according to claim 5, characterized in that: reciprocating rotation mechanism includes second installation pole (61), second installation pole (61) and mount (51) upper end rear side fixed connection, second installation pole (61) rear end fixed connection has motor (62) that output torque is fixed, second installation pole (61) front end rotates and is connected with connecting rod (63), connecting rod (63) end connection has slide bar (64), be provided with third installation pole (65) between second installation pole (61) and first installation pole (52), third installation pole (65) front end rotates and is connected with second gear (66), third installation pole (65) front end is located second gear (66) below fixedly connected with fourth installation pole (67), fourth installation pole (67) upper end horizontal sliding connection has second rack (68), second rack (68) and second gear (66) meshing, second gear (66) fixedly connected with transmission shaft (69), transmission shaft (69) runs through first installation pole (52) and first gear (53) fixed connection, second rack (68) and vertical slide rail (610) vertical end face sliding connection slide rail (64), slide rail (610) vertical end face (610).

7. The automatic antibacterial treatment equipment of flax fabric according to claim 6, characterized in that: a fifth mounting rod (71) is fixedly connected in the first pipeline (33), and a fan (72) is rotatably connected to the upper end of the fifth mounting rod (71).

8. An automatic antibacterial treatment process of flax fabrics, which is suitable for the automatic antibacterial treatment equipment of the flax fabrics in claim 7, and is characterized in that; the process comprises the following steps:

s1, allowing flax fabrics (1) to enter a soaking mechanism from the left end of the soaking mechanism to permeate an antibacterial agent, then leaving the soaking mechanism from the right end of the soaking mechanism, and then drying the flax fabrics in a drying mechanism;

s2, injecting a neutralizing agent into the drying mechanism in proportion to the consumption of the antibacterial agent by the material injection mechanism;

s3, uniformly spraying a neutralizing agent on the flax fabric (1) by the drying mechanism, and carrying out acid-base neutralization on the flax fabric (1).

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