CN212670032U - Cloth cold pad-batch equipment - Google Patents

Abstract

The utility model relates to the technical field of cloth production and processing, in particular to a cloth cold pad-batch device, which comprises a frame, an immersion component, a first roller, a second roller, a rotary driving mechanism, a roller spacing adjusting mechanism, a winding device and a controller; the immersion component is arranged at the upper end of the rack, the axes of the first roller and the second roller are arranged in parallel, two ends of the first roller are rotationally connected with the rack, two ends of the second roller are rotationally connected with the working end of the roller spacing adjusting mechanism, the rotary driving mechanism and the roller spacing adjusting mechanism are symmetrically arranged on the rack about the section where the symmetric centers of the first roller and the second roller are located, and the output end of the rotary driving mechanism is fixedly connected with one end of the first roller and one end of the second roller at the same side respectively; the scheme has high controllability, is convenient to operate, saves the labor cost, improves the working efficiency and has good economic benefit.

Description

Cloth cold pad-batch equipment

Technical Field

The utility model relates to a cloth production and processing technology field specifically relates to a cold pad-batch equipment of cloth.

Background

With the development of industry, industrial waste gas causes atmospheric pollution and ozone layer destruction. The sunbathing which is considered to be health pursuit by people in the past is now an unordinate "solar killer" threatening human health. Ozone depletion, increased ultraviolet transmittance, and increased probability of human skin cancer. Experts predict that the incidence of skin cancer will jump over various diseases and become the first killer of human beings by the end of the century. Therefore, people are intensively researching ultraviolet radiation protection products, and nowadays, the sales of ultraviolet-resistant cosmetics and daily necessities are increased rapidly, but the protection capability and the protection area are limited. Therefore, it is necessary to effectively block excessive ultraviolet rays harmful to the human body by using a textile having a larger protection area and a better protection effect.

The flax fiber has good cool, smooth and clean feeling, good air permeability and moisture permeability, mildew resistance and worm damage resistance, which are not possessed by other natural fibers and cannot be replaced, and are incomparable with chemical fibers, and the flax is known as 'fiber queen'. In order to fully utilize the abundant flax resources in China, exert the excellent performance of the flax fibers and overcome the defects of the flax fibers in processing and application. In recent years, people begin to pay attention to the development of flax products, and the defects of the flax products are improved while the excellent characteristics of the flax fibers are fully expressed, so that novel flax series products suitable for different seasons, different regions and different consumer demands are developed.

Chinese patent CN201610632618.9 discloses a preparation method of an ultraviolet-proof printed and dyed fabric, which adopts the following process flows: singeing, enzyme cold batch, low-temperature enzyme oxygen bleaching, steaming whitening, ultraviolet-resistant waterproof finishing, baking, air softening finishing and shrink prevention. Aiming at the technical problems in the development of ultraviolet-proof waterproof bleached linen printed and dyed cloth, the invention carries out technical attack on the aspects of fabric pretreatment, ultraviolet resistance, waterproofing agent, bleaching color fastness and the like, solves the contradiction between the warp and weft density sparseness and the ultraviolet-proof effect of summer clothing materials, the contradiction between ultraviolet resistance and waterproof finishing, the problem of bleaching color fastness and the problem of wearing comfort of the materials, and not only keeps the original excellent characteristics, but also overcomes the defects. Wherein, the cloth is required to be cold-rolled after being dipped in the working solution.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a cold rolling heap of cloth equipment is provided, cold rolling treatment's behind this technical scheme solution cloth dip-dyeing working solution problem, the controllability is high, and the human cost has been saved in the operation of being convenient for, has improved work efficiency, and economic benefits is good.

In order to solve the technical problem, the utility model provides a following technical scheme:

a cloth cold pad-batch device is characterized by comprising a rack, a liquid immersion component, a first roller, a second roller, a rotary driving mechanism, a roller spacing adjusting mechanism, a winding device and a controller;

the immersion component is installed in the frame upper end, first roll and the mutual parallel arrangement of second roll axis, first roll both ends are rotated with the frame and are connected, the second roll both ends are rotated with the roll interval adjustment mechanism work end and are connected, rotary driving mechanism and roll interval adjustment mechanism all set up two sets ofly in the frame about the cross-section symmetry place at first roll and second roll symmetric center, rotary driving mechanism output respectively with the one end fixed connection of first roll and second roll homonymy, the cloth passes through the immersion component in proper order, first roll, the second roll, the coiling mechanism, rotary driving mechanism and roll interval adjustment mechanism all are connected with the controller electricity.

As a preferable scheme of the cloth cold pad-batch equipment, the immersion component comprises a working fluid pool, a first tensioning roller, a second tensioning roller, a rotating shaft and a third tensioning roller; the working liquid pool is arranged on the frame and located below the first roller, the first tensioning roller and the second tensioning roller are rotatably arranged on two sides above the working liquid pool, two ends of the rotating shaft are fixedly connected with two sides of the bottom of the working liquid pool in a perpendicular mode, the third tensioning roller is rotatably arranged on the rotating shaft, and the axes of the first tensioning roller, the second tensioning roller and the third tensioning roller are parallel to each other.

As a preferable scheme of the cold pad-batch distributing equipment, the rotary driving mechanism comprises a first worm, a second worm, a first worm wheel, a second worm wheel and a first rotary driver; the first worm and the second worm are connected in series in a tailing mode, two ends of the first worm and the second worm are connected with the rack in a rotating mode, the first worm wheel and the second worm wheel are fixedly connected with the end portions of the first roller and the second roller at the same side respectively, the first worm wheel and the second worm wheel are meshed with the first worm and the second worm respectively, the first rotary driver is installed on the rack, the output end of the first rotary driver is fixedly connected with the end portion of the first worm, and the first rotary driver is electrically connected with the controller.

As a preferable scheme of the cold pad-batch distributing equipment, the roller spacing adjusting mechanism comprises a sliding support, a bearing seat, a screw, a transmission assembly, a driver support and a second rotary driver; the sliding support is connected with the frame in a sliding mode, the sliding direction is vertical, the axes of the pair of bearing seats are arranged on the frame in a collinear mode, the two ends of the screw rod are connected with the pair of bearing seats in a rotating mode, the screw rod is connected with the sliding support in a threaded mode, the two ends of the transmission assembly are fixedly connected with the pair of screw rods respectively, the driver support is installed on one side of the frame, the second rotary driver is installed on the driver support, the output end of the second rotary driver is fixedly connected with the other side of the input end of.

As a preferable scheme of the cold pad-batch distributing equipment, the sliding support is matched with the rack in a sliding mode through a dovetail slide block and a dovetail groove.

As a preferable scheme of the cold pad-batch cloth equipment, the transmission assembly comprises a first synchronous pulley, a second synchronous pulley and a synchronous belt; one end of the first synchronous belt pulley is fixedly connected with the output end of the second rotary driver, the other end of the first synchronous belt pulley is fixedly connected with the first screw rod, the second synchronous belt pulley is fixedly connected with the second screw rod, and the synchronous belts are respectively in transmission connection with the first synchronous belt pulley and the second synchronous belt pulley.

Compared with the prior art, the utility model beneficial effect who has is:

the worker drives the rotary driving mechanism to increase the vertical height of the second roller so as to increase the distance between the working surface of the second roller and the working surface of the first roller. Then the worker winds the cloth through the liquid immersion component to enable the cloth to pass through and be tensioned by working liquid in the liquid immersion component, then the cloth sequentially passes through a first roller and a second roller, and finally the cloth is installed at the winding and stacking working end. Then, the operator controls the roller spacing adjusting mechanism through the controller to drive the second roller to approach the first roller so that the working surfaces of the second roller and the first roller respectively abut against the upper side and the lower side of the cloth. Then the staff controls the coiling mechanism and the rotary driving mechanism to work together through the controller. The winding device provides traction force. The rotary driving mechanism drives the first roller and the second roller to rotate together to perform cold rolling on the cloth. Redundant working solution on the cloth falls back into the immersion liquid component under the action of gravity, so that unnecessary waste is eliminated, and materials are greatly saved. The roller spacing adjusting mechanism facilitates operation of workers on one hand, and can accurately adjust the cloth with different thicknesses on the other hand, so that the application range is wide. The dovetail structure provides further limitation to the movement of the sliding bracket, making the structure more stable.

1. The controllability is high, and the operation is convenient;

2. the labor cost is saved;

3. the working efficiency is improved, and the economic benefit is good.

Drawings

Fig. 1 is a schematic perspective view of the present invention in an operating state;

fig. 2 is a perspective view of the present invention;

FIG. 3 is a partially exploded perspective view of the immersion assembly of the present invention;

fig. 4 is a partial perspective view of the first embodiment of the present invention;

fig. 5 is a partial perspective view of the second embodiment of the present invention;

fig. 6 is a perspective view of the sliding bracket of the present invention;

fig. 7 is a partial perspective view of the third embodiment of the present invention.

The reference numbers in the figures are:

1. a frame;

2. an immersion fluid assembly; 2a, a working liquid pool; 2b, a first tensioning roller; 2c, a second tensioning roller; 2d, a rotating shaft; 2e, a third tensioning roller;

3. a first roll;

4. a second roll;

5. a rotation driving mechanism; 5a, a first worm; 5b, a second worm; 5c, a first worm gear; 5d, a second worm gear; 5e, a first rotary driver;

6. a roller interval adjusting mechanism; 6a, a sliding bracket; 6b, a bearing seat; 6c, a screw; 6d, a transmission assembly; 6d1, first timing pulley; 6d2, second timing pulley; 6d3, synchronous belt; 6e, a driver mount; 6f, a second rotary driver.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 and fig. 2, a cold pad-batch cloth mill comprises a frame 1, a liquid immersion assembly 2, a first roller 3, a second roller 4, a rotary driving mechanism 5, a roller spacing adjusting mechanism 6, a winding device and a controller;

the immersion component 2 is installed at the upper end of the rack 1, the axes of the first roller 3 and the second roller 4 are arranged in parallel, the two ends of the first roller 3 are rotationally connected with the rack 1, the two ends of the second roller 4 are rotationally connected with the working end of the roller spacing adjusting mechanism 6, the rotary driving mechanism 5 and the roller spacing adjusting mechanism 6 are symmetrically arranged on the rack 1 about the cross section where the symmetric centers of the first roller 3 and the second roller 4 are located, the output end of the rotary driving mechanism 5 is fixedly connected with one end of the first roller 3 and the second roller 4 at the same side respectively, and cloth sequentially passes through the immersion component 2, the first roller 3, the second roller 4, the winding device rotary driving mechanism 5 and the roller spacing adjusting mechanism 6 and is electrically connected with the controller.

The worker raises the vertical height of the second roll 4 by driving the rotary driving mechanism 5 to increase the distance between the working surface of the second roll 4 and the working surface of the first roll 3. Then the worker winds the cloth through the immersion component 2 to enable the cloth to pass through and be tensioned in the working liquid in the immersion component 2, then the cloth sequentially passes through the space between the first roller 3 and the second roller 4, and finally the cloth is installed at the winding and stacking working end. Then, the operator controls the roller spacing adjusting mechanism 6 through the controller to drive the second roller 4 to approach the first roller 3, so that the working surfaces of the first roller and the first roller respectively abut against the upper side and the lower side of the cloth. Then the staff controls the coiling device and the rotary driving mechanism 5 to work together through the controller. The winding device provides traction force. The rotary driving mechanism 5 works to drive the first roller 3 and the second roller 4 to rotate together to cold-roll the cloth. The redundant working solution on the cloth falls back into the immersion liquid component 2 under the action of gravity, so that unnecessary waste is eliminated, and materials are greatly saved. The roller spacing adjusting mechanism 6 facilitates the operation of workers on the one hand, and can accurately adjust the cloth with different thicknesses on the other hand, so that the application range is wide.

As shown in fig. 3, the immersion liquid assembly 2 includes a working liquid pool 2a, a first tension roller 2b, a second tension roller 2c, a rotating shaft 2d and a third tension roller 2 e; working solution pond 2a installs in frame 1 and is located first roll 3 below, and first tensioning roller 2b and second tensioning roller 2c all rotatably install in working solution pond 2a top both sides position, and the perpendicular fixed connection in pivot 2d both ends and working solution pond 2a bottom both sides, and third tensioning roller 2e rotatably installs on pivot 2d, and first tensioning roller 2b, second tensioning roller 2c and third tensioning roller 2e axis are parallel to each other.

The cloth passes through the first tensioning roller 2b, the second tensioning roller 2c and the third tensioning roller 2e in sequence to enable the cloth to fully dip-dye the working solution through the inside of the working solution pool 2 a. The structure of pivot 2d and third tensioning roller 2e helps improving the leakproofness of working solution pond 2a, avoids the working solution that the perforation structure caused to spill, need not additionally to increase the sealing member, has further saved the cost.

As shown in fig. 4, the rotation driving mechanism 5 includes a first worm 5a, a second worm 5b, a first worm wheel 5c, a second worm wheel 5d, and a first rotation driver 5 e; the first worm 5a and the second worm 5b are connected in series in a tail-ending mode, two ends of the first worm are connected with the rack 1 in a rotating mode, the first worm wheel 5c and the second worm wheel 5d are fixedly connected with the end portions of the first roller 3 and the second roller 4 on the same side respectively, the first worm wheel 5c and the second worm wheel 5d are meshed with the first worm 5a and the second worm 5b respectively, the first rotary driver 5e is installed on the rack 1, the output end of the first rotary driver is fixedly connected with the end portion of the first worm 5a, and the first rotary driver 5e is electrically connected with the controller.

The first rotary driver 5e is a servo motor. The controller drives the first rotary driver 5e to enable the worm group formed by the series connection of the first worm 5a and the second worm 5b to rotate, so that the first worm wheel 5c and the second worm wheel 5d are driven to rotate together, the first worm 5a and the first worm wheel 5c are matched with each other, the second worm 5b and the second worm wheel 5d are matched with each other, the relative rotation direction of the first roller 3 and the second roller 4 can be changed by changing the matching direction of the two sets of worm wheels and worms so as to be suitable for different cold rolling requirements, and the first roller 3 and the second roller 4 can rotate in the same direction or in the opposite direction. The pair of rotary driving mechanisms 5 are symmetrically arranged on the whole, and simultaneously, the synchronous driving is carried out from the two ends of the first roller 3 and the second roller 4, so that the structure is more stable. In addition, only one driving piece can be used on both sides of the first roller 3 and the second roller 4, and a synchronous belt or a chain wheel pair is used for synchronizing torque to save cost. Because the two ends of the second roller 4 are rotatably connected with the roller spacing adjusting mechanism 6, when the working end of the roller spacing adjusting mechanism 6 moves, the second roller 4 and the second worm gears 5d at the two ends of the second roller rotate along with the teeth of the second worm 5b, and the movement of the second roller 4 cannot be influenced.

As shown in fig. 5, the roller spacing adjusting mechanism 6 includes a sliding support 6a, a bearing seat 6b, a screw rod 6c, a transmission assembly 6d, a driver support 6e and a second rotary driver 6 f; sliding bracket 6a and 1 sliding connection of frame and the vertical setting of direction of sliding, a pair of bearing frame 6b axis collineatly sets up in frame 1, screw rod 6c both ends rotate with a pair of bearing frame 6b to be connected, screw rod 6c and sliding bracket 6a threaded connection, drive assembly 6d both ends respectively with a pair of screw rod 6c fixed connection, driver support 6e installs in frame 1 one side, second rotary actuator 6f installs on driver support 6e and the opposite side fixed connection of output and drive assembly 6d input, second rotary actuator 6f is connected with the controller electricity.

The roller spacing adjusting mechanisms 6 are symmetrically arranged in two groups, the torque of the second rotary driver 6f is transmitted to the two screw rods 6c through the transmission assembly 6d, and the sliding support 6a is driven to do linear motion along the sliding groove in the rack 1 through the driving screw rods 6c, so that the vertical height of the sliding support 6a is adjusted. The sliding brackets 6a on both sides of the second roll 4 simultaneously and synchronously carry the second roll 4 up and down to approach or separate from the first roll 3. The bearing seat 6b provides support for the sliding bracket 6 a. The driver support 6e provides support for the second rotary driver 6 f.

As shown in fig. 6, the sliding bracket 6a is matched with the rack 1 in a sliding way by a dovetail slide block and a dovetail groove.

The movement of the sliding bracket 6a is further limited by the dovetail structure, making the structure more stable.

As shown in fig. 7, the transmission assembly 6d includes a first timing pulley 6d1, a second timing pulley 6d2 and a timing belt 6d 3; one end of the first synchronous belt wheel 6d1 is fixedly connected with the output end of the second rotary driver 6f, the other end of the first synchronous belt wheel is fixedly connected with the first screw rod 6c, the second synchronous belt wheel 6d2 is fixedly connected with the second screw rod 6c, and the synchronous belt 6d3 is respectively in transmission connection with the first synchronous belt wheel 6d1 and the second synchronous belt wheel 6d 2.

The transmission structure of the first timing pulley 6d1, the second timing pulley 6d2 and the timing belt 6d3 synchronously transmits the torque of the second rotary actuator 6f to the screws 6c on both sides of the first roller 3, thereby avoiding the occurrence of deviation.

The utility model discloses a theory of operation:

the worker raises the vertical height of the second roll 4 by driving the rotary driving mechanism 5 to increase the distance between the working surface of the second roll 4 and the working surface of the first roll 3. Then the worker winds the cloth through the immersion component 2 to enable the cloth to pass through and be tensioned in the working liquid in the immersion component 2, then the cloth sequentially passes through the space between the first roller 3 and the second roller 4, and finally the cloth is installed at the winding and stacking working end. Then, the operator controls the roller spacing adjusting mechanism 6 through the controller to drive the second roller 4 to approach the first roller 3, so that the working surfaces of the first roller and the first roller respectively abut against the upper side and the lower side of the cloth. Then the staff controls the coiling device and the rotary driving mechanism 5 to work together through the controller. The winding device provides traction force. The rotary driving mechanism 5 works to drive the first roller 3 and the second roller 4 to rotate together to cold-roll the cloth. The redundant working solution on the cloth falls back into the immersion liquid component 2 under the action of gravity, so that unnecessary waste is eliminated, and materials are greatly saved. The roller spacing adjusting mechanism 6 facilitates the operation of workers on the one hand, and can accurately adjust the cloth with different thicknesses on the other hand, so that the application range is wide. The movement of the sliding bracket 6a is further limited by the dovetail structure, making the structure more stable.

Claims (6)

1. The cloth cold pad-batch equipment is characterized by comprising a rack (1), a liquid immersion component (2), a first roller (3), a second roller (4), a rotary driving mechanism (5), a roller spacing adjusting mechanism (6), a winding device and a controller;

the immersion component (2) is arranged at the upper end of the frame (1), the axes of the first roller (3) and the second roller (4) are arranged in parallel, the two ends of the first roller (3) are rotationally connected with the frame (1), the two ends of the second roller (4) are rotationally connected with the working end of the roller spacing adjusting mechanism (6), the rotary driving mechanism (5) and the roller spacing adjusting mechanism (6) are symmetrically arranged on the frame (1) about the section of the symmetrical center of the first roller (3) and the second roller (4), the output end of the rotary driving mechanism (5) is fixedly connected with one end of the first roller (3) and one end of the second roller (4) which are at the same side respectively, the cloth sequentially passes through the immersion component (2), the first roller (3), the second roller (4), the winding device, the rotary driving mechanism (5) and the roller interval adjusting mechanism (6) and is electrically connected with the controller.

2. A cloth cold pad-batch apparatus according to claim 1, characterized in that the immersion liquid assembly (2) comprises a working liquid pool (2a), a first tension roller (2b), a second tension roller (2c), a rotation shaft (2d) and a third tension roller (2 e); working solution pond (2a) is installed in frame (1) and is located first roll (3) below, first tensioning roller (2b) and second tensioning roller (2c) are all rotatably installed in working solution pond (2a) top both sides position, pivot (2d) both ends and the perpendicular fixed connection in working solution pond (2a) bottom both sides, third tensioning roller (2e) are rotatably installed on pivot (2d), first tensioning roller (2b), second tensioning roller (2c) and third tensioning roller (2e) axis are parallel to each other.

3. A cold pad-batch cloth mill according to claim 1, characterized in that the rotary drive mechanism (5) comprises a first worm (5a), a second worm (5b), a first worm wheel (5c), a second worm wheel (5d) and a first rotary drive (5 e); first worm (5a) and second worm (5b) end to end and are established ties and both ends are rotated with frame (1) and are connected, first worm wheel (5c) and second worm wheel (5d) respectively with first roll (3), the tip fixed connection of second roll (4) homonymy, first worm wheel (5c) and second worm wheel (5d) mesh with first worm (5a), second worm (5b) respectively, first rotary actuator (5e) are installed on frame (1) and output and first worm (5a) tip fixed connection, first rotary actuator (5e) are connected with the controller electricity.

4. Cloth cold pad-batch plant according to claim 1, characterized in that the roller spacing adjustment mechanism (6) comprises a sliding support (6a), a bearing block (6b), a screw (6c), a transmission assembly (6d), a driver support (6e) and a second rotary driver (6 f); sliding bracket (6a) and frame (1) sliding connection and the vertical setting of slip direction, a pair of bearing frame (6b) axis collineatly sets up on frame (1), screw rod (6c) both ends are rotated with a pair of bearing frame (6b) and are connected, screw rod (6c) and sliding bracket (6a) threaded connection, drive assembly (6d) both ends respectively with a pair of screw rod (6c) fixed connection, install in frame (1) one side driver support (6e), second rotary actuator (6f) are installed on driver support (6e) and the opposite side fixed connection of output and drive assembly (6d) input, second rotary actuator (6f) are connected with the controller electricity.

5. Cloth cold-rolling-stack apparatus according to claim 4, characterized in that the sliding support (6a) is fitted with the frame (1) by means of dovetail blocks and dovetail grooves.

6. A cold pad-batch plant according to claim 4, characterized in that said transmission assembly (6d) comprises a first synchronous pulley (6d1), a second synchronous pulley (6d2) and a synchronous belt (6d 3); one end of a first synchronous pulley (6d1) is fixedly connected with the output end of the second rotary driver (6f), the other end of the first synchronous pulley is fixedly connected with the first screw rod (6c), a second synchronous pulley (6d2) is fixedly connected with the second screw rod (6c), and a synchronous belt (6d3) is respectively in transmission connection with the first synchronous pulley (6d1) and the second synchronous pulley (6d 2).

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