CN214271313U - Textile baking machine with hot rolling function and production equipment - Google Patents
Textile baking machine with hot rolling function and production equipment Download PDFInfo
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- CN214271313U CN214271313U CN202120126454.9U CN202120126454U CN214271313U CN 214271313 U CN214271313 U CN 214271313U CN 202120126454 U CN202120126454 U CN 202120126454U CN 214271313 U CN214271313 U CN 214271313U
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Abstract
The utility model relates to a fabrics curer and production facility with hot rolling function, the curer includes the oven, the symmetry sets up first guide rail and the second guide rail that is used for carrying fabric in the oven, the even roll assembly of setting in the oven, even roll assembly includes first roll and the second roll of being connected with the oven through the roller respectively, when even roll assembly carries out the roll compaction to the fabric, first roll and second roll are located between first guide rail and the second guide rail and cooperate and roll the compaction to the fabric between first guide rail and the second guide rail. The uniform roll component is arranged in the oven, so that the fabric fibers are deformed at high temperature and high pressure, the surface of the fabric is tighter, meanwhile, molecules of the fabric are rearranged to expose more fiber surface active sites, the fiber surface active sites are firmly combined with molecules of functional materials and are arranged in order, the functions of washing resistance and abrasion resistance are formed, and the service life of the textile can be prolonged due to the washing resistance and the abrasion resistance.
Description
Technical Field
The utility model belongs to the technical field of the finishing equipment behind the fabrics, concretely relates to fabrics curer and production facility with hot rolling function.
Background
With the increasing market demand of functional textiles and the increasing demand of product performance, the after-finishing technology is continuously improved, the finishing processing of the functions such as water resistance, oil resistance, stain resistance, flame retardance, antibiosis, temperature reduction and heat preservation needs to be realized by the processes of padding, baking, rolling and the like, and the processes of padding, baking, rolling and the like are all carried out on different equipment on the equipment in the current market, finished in different process sections, so that the product is cooled and coiled firstly after being processed in different working sections and then enters the next working section, and the next time when high temperature is needed, the product needs to be heated again, so that the product is repeatedly heated, cooled, heated and cooled, the energy consumption is wasted, the production speed is reduced, moreover, improper operation can cause the base cloth (such as non-woven fabric) to become hard, which affects the hand feeling of the product and further affects the wearing comfort. And after the processing of a plurality of functions, the combination of the functional material and the textile is not firm enough, and the friction resistance and the washing resistance are low, so that the functions can be only used once, for example, the medical protective clothing with the functions of isolating virus, body fluid and blood can change the property that the protective clothing can only be worn once if the functions are washed and rubbed, the service life of the protective clothing can be prolonged, and the purpose of saving resources can be achieved.
However, the existing processing equipment or process has the common situation that the functional material is not firmly combined with the textile after the processing is finished, the friction resistance and the washing resistance are low, and the property that the protective clothing can only be worn once is difficult to change.
Disclosure of Invention
The utility model aims to solve the technical problem that overcome prior art not enough, provide a fabrics curer that has the hot rolling function that can improve functional material and fabric combination fastness.
For solving the technical problem, the utility model discloses a following technical scheme:
the textile baking machine comprises an oven, a first guide rail and a second guide rail, wherein the first guide rail and the second guide rail are symmetrically arranged in the oven and used for conveying fabrics, the baking machine further comprises a uniform roll assembly arranged in the oven and used for rolling the fabrics, the uniform roll assembly comprises a first roll and a second roll which are respectively connected with the oven through roll shafts, and when the uniform roll assembly rolls the fabrics, the first roll and the second roll are positioned between the first guide rail and the second guide rail and are matched with each other to roll the fabrics between the first guide rail and the second guide rail.
Further, the baking machine further comprises first sliding parts symmetrically arranged on two sides of the oven and second sliding parts symmetrically arranged on two sides of the oven, the first sliding parts on two sides and the second sliding parts on two sides are movably arranged on the oven respectively, two ends of the roller shaft corresponding to the first roller are arranged on the first sliding parts, two ends of the roller shaft corresponding to the second roller are arranged on the second sliding parts, and the distance between the first roller and the second roller is adjusted through sliding of the first sliding parts and the second sliding parts.
According to some implementation aspects of the utility model, each correspond on the first slider, each the second slider the position of roller is followed the spout is seted up to the traffic direction of fabric, first roll corresponds the both ends of roller slide respectively and rotate the setting and correspond on the first slider in the spout, the correspondence of second roll the both ends of roller slide respectively and rotate the setting and correspond on the second slider in the spout.
According to some embodiment aspects of the utility model, the curer still includes and is used for the drive respectively first slider, second slider are in gliding first hydraulic press on the oven is used for the drive respectively the roller of first roll is in corresponding slide on the spout the roller of second roll is in corresponding gliding second hydraulic press on the spout, and respectively with first hydraulic press, second hydraulic press electricity are connected and are used for controlling the control system of first hydraulic press, second hydraulic press work.
In some preferred and specific embodiments, the roll shaft corresponding to the first roll and the roll shaft corresponding to the second roll are respectively telescopic roll shafts, the baking machine further includes a third hydraulic machine for controlling the extension or shortening of the roll shaft corresponding to the first roll and the extension or shortening of the roll shaft corresponding to the second roll, respectively, and the third hydraulic machine is electrically connected to the control system.
According to some embodiments of the present invention, the baking machine further comprises a motor for driving the first roller and the second roller to rotate around their axes, and the motor is electrically connected to the control system.
According to some implementation aspects of the utility model, even roll assembly sets up a plurality ofly, and is a plurality of even roll assembly follows the traffic direction of fabric arranges in proper order, each first roll of even roll assembly, second roll distribute from top to bottom.
According to some aspects of the embodiments of the present invention, the first roll is located above the second roll, the first roll is an even roll, and the second roll is a steel roll.
According to some implementation aspects of the utility model, first guide rail and/or second guide rail activity set up make distance between first guide rail and the second guide rail is adjustable, set up respectively on first guide rail, the second guide rail and be used for fixing the faller of fabric both sides.
The utility model discloses another technical scheme who takes does: the textile production equipment comprises a cloth feeding device, a dipping tank, a roller device, a baking machine and a cloth discharging device which are sequentially arranged, wherein the baking machine adopts the textile baking machine.
Because of the implementation of above-mentioned technical scheme, compared with the prior art, the utility model has the following advantage:
the utility model discloses a fabrics curer is through setting up even roll subassembly in the oven, make the fabric when passing through the oven, heating and roll through the oven make the fabric fibre take place deformation under high temperature high pressure, and then make the fabric surface inseparabler, the molecule of fabric realizes rearranging simultaneously, at rearrangement in-process, more fibre surface activity position is exposed, with the firm combination of molecule of functional material, it is neat to arrange, it is washable to form to possess, the function of the effect of wear-resisting, the life-span that the performance of washing-resisting antifriction can prolong the fabrics use, make disposable goods become the product of repetitious usage, reach the target of saving the resource and reducing the material shortage.
Drawings
Fig. 1 is a schematic front view of a roasting machine according to an embodiment of the present invention (showing the internal structure);
fig. 2 is a left side view schematically illustrating the structure of the roasting machine according to an embodiment of the present invention (showing the internal structure);
fig. 3 is a schematic top view of the roasting machine according to an embodiment of the present invention (showing the internal structure);
fig. 4 is a schematic structural diagram of a production device for producing textiles by using the baking machine according to an embodiment of the present invention.
In the figure: 100. a baking machine; 200. a cloth feeding device; 300. an impregnation tank; 400. a roll device; 500. a cloth discharging device;
1. an oven; 2. a uniformity roll assembly; 3. a first roll; 4. a second roll; 5. a first guide rail; 6. a second guide rail; 7. a needle plate; 8. a fabric; 9. a first slider.
Detailed Description
The invention will be further described by means of specific embodiments and with reference to the accompanying drawings.
As shown in fig. 1 to 3, a textile baking machine 100 with a hot rolling function includes an oven 1, and a first guide rail 5 and a second guide rail 6 symmetrically disposed in the oven 1 and used for conveying a fabric 8, wherein both ends of the first guide rail 5 extend to the outside of the oven 1 from an inlet and an outlet of the oven 1, respectively, both ends of the second guide rail 6 extend to the outside of the oven 1 from the inlet and the outlet of the oven 1, respectively, the first guide rail 5 and the second guide rail 6 are disposed in a relatively sliding manner, so that a distance between the first guide rail 5 and the second guide rail 6 is adjustable to adapt to fabrics 8 with different widths, and needle plates 7 for fixing two sides of the fabric 8 are disposed on the first guide rail 5 and the second guide rail 6, respectively.
The baking machine 100 further comprises a plurality of uniform roll assemblies 2 arranged in the oven 1 for rolling the fabric 8, and the plurality of uniform roll assemblies 2 are sequentially arranged along the running direction of the fabric 8. Such as 2-4 uniform roll assemblies 2.
Each uniform roll assembly 2 comprises a first roll 3 and a second roll 4 which are respectively connected with the two sides of the oven 1 through roll shafts, the first roll 3 is positioned above the second roll 4, the first roll 3 is a uniform roll, and the second roll 4 is a common steel roll.
When the uniformity roller assembly 2 rolls the fabric 8, the first roller 3 and the second roller 4 are positioned between the first guide 5 and the second guide 6 and cooperate to roll the fabric 8 between the first guide 5 and the second guide 6.
The baking machine 100 further comprises first sliding parts 9 symmetrically arranged on the box walls on two sides of the baking oven 1 and second sliding parts symmetrically arranged on the box walls on two sides of the baking oven 1, the first sliding parts 9 on two sides and the second sliding parts on two sides are respectively arranged on the box walls of the baking oven 1 in a sliding mode along the vertical direction, two ends of a roller shaft corresponding to the first roller 3 are arranged on the first sliding parts 9 on two sides, two ends of a roller shaft corresponding to the second roller 4 are arranged on the second sliding parts on two sides, and the distance between the first roller 3 and the second roller 4 is adjusted through the sliding of the first sliding parts 9 and the second sliding parts.
In this example, the positions of the first sliding parts 9 and the second sliding parts corresponding to the roll shafts are respectively provided with a sliding groove along the running direction of the fabric 8, two ends of the first roller 3 corresponding to the roll shaft are respectively arranged in the sliding grooves of the corresponding first sliding parts 9 in a sliding and rotating manner, and two ends of the second roller 4 corresponding to the roll shaft are respectively arranged in the sliding grooves of the corresponding second sliding parts in a sliding and rotating manner.
The baking machine 100 further comprises a first hydraulic machine, a second hydraulic machine and a control system, wherein the first hydraulic machine is used for driving the first sliding part 9 and the second sliding part to slide on the wall of the oven 1, the second hydraulic machine is used for driving a roll shaft of the first roller 3 to slide on a corresponding sliding groove and a roll shaft of the second roller 4 to slide on a corresponding sliding groove, and the control system is electrically connected with the first hydraulic machine and the second hydraulic machine and is used for controlling the first hydraulic machine and the second hydraulic machine to work.
In this example, the roll shaft corresponding to the first roll 3 and the roll shaft corresponding to the second roll 4 are respectively telescopic roll shafts, the baking machine further comprises a third hydraulic machine for controlling the extension or shortening of the roll shaft corresponding to the first roll 3 and the extension or shortening of the roll shaft corresponding to the second roll 4, and the third hydraulic machine is electrically connected with the control system.
The baking machine 100 further comprises a motor for driving the first roller 3 and the second roller 4 to rotate around their own axes, the motor is electrically connected with the control system, for example, the motor drives the belt to rotate, and the belt drives the first roller 3 and the second roller 4 to rotate.
In this example, the lengths of the first roller 3 and the second roller 4 are respectively 10-30 cm longer than the maximum adjustable distance between the first guide rail 5 and the second guide rail 6, the extending directions of the first roller 3 and the second roller 4 respectively form a certain included angle α (see fig. 2) with the running direction of the fabric 8, when the uniform roll assembly 2 rolls the fabric 8, the roller shafts corresponding to the first roller 3 and the second roller 4 are adjusted to slide in the corresponding chutes by the second hydraulic press to adjust the size of the included angle α, and meanwhile, the extension or the shortening of the roller shafts corresponding to the first roller 3 and the second roller 4 is controlled by the third hydraulic press to keep the relative positions of the central points of the first roller 3 and the second roller 4 in the oven 1 unchanged. For example, the first roller 3 is positioned between the first guide rail 5 and the second guide rail 6 by adjusting the included angle alpha so as to press the fabric 8 between the first guide rail 5 and the second guide rail 6, and the distance between the two ends of the first roller 3 and the first guide rail 5 and the second guide rail 6 is 1-2 cm. Therefore, the first roller 3 is prevented from being pressed onto the first guide rail 5 and the second guide rail 6, the first roller 3 is prevented from colliding with the needle plate 7, and the two ends of the first roller 3 fully cover the width of the fabric 8. Similarly, the angle α between the direction of extension of the second roller 4 and the direction of travel of the fabric 8 is adjustable.
When the uniform roll assembly 2 stops operating, the first hydraulic press drives the first sliding part 9 and the second sliding part to slide upwards and downwards on the wall of the oven 1, so that the first roll 3 and the second roll 4 are separated from the contact with the fabric 8, then under the action of the second hydraulic press, the roll shafts of the first roll 3 and the second roll 4 slide in the corresponding sliding grooves, so that the extending directions of the first roll 3 and the second roll 4 are recovered to be perpendicular to the running direction of the fabric 8, namely the included angle alpha is 90 degrees, and meanwhile, the third hydraulic press controls the shortening of the roll shafts of the first roll 3 and the second roll 4, wherein the state is an original state. When the uniform roll assembly 2 operates next time, the control system controls the first hydraulic machine, the second hydraulic machine and the third hydraulic machine to work, so that the first sliding part 9 and the second sliding part are controlled to slide, the roll shaft of the first roll 3 and the roll shaft of the second roll 4 slide on the sliding groove, and the roll shaft of the first roll 3 and the roll shaft of the second roll 4 extend until the first roll 3 and the second roll 4 press the fabric 8 between the first guide rail 5 and the second guide rail 6.
The baking machine 100 of the embodiment is used in a production facility of functional textiles, referring to fig. 4, the production facility comprises a cloth feeding device 200, a dipping tank 300, a rolling device 400, a baking machine 100 and a cloth discharging device 500 which are arranged in sequence, and the production method comprises the following steps:
(1) the functional finish is prepared first and added to the dip tank 300 for use.
(2) The fabric 8 enters the production equipment through the fabric feeding device 200, enters the impregnation tank 300 under the traction of the fabric guide roller to contact with the functional finishing agent, fully absorbs the finishing agent and then enters the roller device 400, the water content of the rolled fabric 8 is reduced to 30-40%, the raffinate returns to the impregnation tank 300, the fabric 8 enters the first guide rail 5 and the second guide rail 6 with the needle plate 7 under the traction of the fabric guide roller, the two sides of the fabric 8 are fixed by the needle plate 7, and then the fabric 8 is pulled into the oven 1 of the baking machine 100 by the first guide rail 5 and the second guide rail 6 on the two sides, is simultaneously rolled and dried in the oven 1, and is rolled through the fabric discharging device 500, so that the functional textile is obtained.
In the step (2), the temperature in the oven 1 is set to be 100-250 ℃ according to the processing requirements, 2-4 uniform roll assemblies 2 are arranged in the oven 1, the rotating speeds of the first roll 3 and the second roll 4 of the uniform roll assemblies 2 are driven by a synchronous motor of the device to be synchronous with the running speeds of the first guide rail 5 and the second guide rail 6, namely, the rotating speeds of the first roll and the second roll are kept synchronous with the running speed of the fabric 8.
In a specific production process, the first guide 5, the second guide 6 and the uniform roll assembly 2 of the roasting machine 100 are switched between the initial state and the operating state by the following specific adjusting method (the first roll 3 is taken as an example in the following):
1) referring to fig. 2 and 3, if the width inside the oven is s (the width direction is perpendicular to the running direction of the fabric, and the value of s is a fixed value), the width between the first guide rail 5 and the second guide rail 6 is d, and the length of the first roller 3 is l (the value is a fixed value), the control system automatically calculates the included angle α between the roller and the running direction of the fabric by a formula, which is arcsind/l, and when the first guide rail and the second guide rail are in the initial state, the width between the first guide rail 5 and the second guide rail 6 is d0The initial angle α between the direction of extension of the first roll 3 (or the second roll 4) and the direction of travel of the fabric 80=arcsind0/l。
2) Referring to fig. 2, the initial distance l is set between the two ends of the first roller 3 and the connection of the roller shaft of the corresponding end on the first sliding member 91And l2The total length of the first roll 3 and the initial distance between the two ends of the first roll 3 and the joint of the roll shaft of the corresponding end on the first sliding member 9 is s', s ═ s/sin α0And, in turn, s' ═ l1+l+l2Since the center of the first roll 3 is always at the center of the oven, l1=l2=(s’-l)/2=(s/sinα0-l)/2。
When the distance d between the first guide rail 5 and the second guide rail 6 is reset, the control system automatically calculates alpha0The difference between β and α is α0α, and if the value is obtained, the control system controls the second hydraulic press at both ends of the first roll 3 to work so that the corresponding roll shafts at both ends of the first roll 3 respectively slide in the sliding grooves in opposite directions, one end slides in the fabric advancing direction, the other end slides in the opposite direction along the fabric advancing direction, and the sliding distances are the same, and specifically, the sliding distance of one end of the first roll 3 corresponding to the roll shaft (for example, the distance is l)1Roller shaft corresponding to the end portion) Δ m1=(l+l1)(cosα0Cos alpha), the system automatically calculates l1The numerical value is substituted into a formula, and the sliding distance (distance is l) of the other end of the first roller 3 corresponding to the roller shaft is similar2Roller shaft corresponding to the end portion) Δ m2=(l+l2)(cosα-cosα0) When the fabric advancing direction is the forward direction and the direction opposite to the fabric advancing direction is the backward direction, Δ m1Or Δ m2When the value of (d) is positive, the roller slides backwards, Δ m1Or Δ m2When the value of (b) is negative, the roller shaft slides forward until β becomes 0 by the sliding of the roller shaft.
The roll shaft that first roll 3 corresponds is at the spout slip in-process, the extension or the shortening that the third hydraulic press control first roll 3 corresponds the roll shaft both ends simultaneously, the extension or the shortening that first roll 3 corresponds the roll shaft both ends need go on simultaneously, and the distance of extension or shortening equals, keep unchangeable in oven 1's relative position in order to realize the center of first roll 3, realize 3 angular rotation of first roll, the distance that first roll 3 corresponds the roll shaft both ends extension or shorten is controlled by control system, through formula delta l1=s(1/sinα-sinα0)/2、Δl2=s(1/sinα-sinα0) /2, in particular whether lengthening or shortening, from Δ l1And Δ l1Positive and negative values of (a) are controlled, positive values are lengthened and negative values are shortened, wherein alpha and alpha are0The value of (c) is calculated from the aforementioned formula.
3) The rotating speed of the motor is controlled through the control system, and then the linear speed of the first roller 3 in the fabric advancing direction is controlled to be the same as the advancing speed of the fabric 8, specifically, the linear speed of the first guide rail 5 and the second guide rail 6 is set as v, the radius of the first roller 3 is set as r, the rotating speed of the motor carrying the first roller 3 to rotate is automatically regulated and controlled by the system to be n ═ v/2 pi rsin alpha, and the linear speed of the first roller 3 in the fabric 8 advancing direction is guaranteed to be the same as the running speed of the fabric 8.
Before the baking machine 100 is started up each time, the baking machine 100 is in an original state, the distance between the first guide rail 5 and the second guide rail 6 is in the maximum width, and the included angle alpha between the extending direction of the first roller 3 and the running direction of the fabric 8090 DEG, the control systemThe system automatically reads the initial width d between the first guide rail 5 and the second guide rail 6 at this time0And the initial length l between the two ends of the first roller 3 and the connection of the roller shafts of the corresponding ends on the first sliding part 91And l2The numerical values of the (1) internal width s, the length l of the first roller 3 and the radius r of the first roller 3 are automatically stored in the control system, the newly-arranged numerical values of the width d between the first guide rail 5 and the second guide rail 6 in the baking machine 100 and the advancing speed v of the fabric 8 are input into the control system, and then the control system automatically calculates the forward and backward sliding distances of the roller shafts at the two ends to be respectively delta m according to the functional relation1And Δ m2The telescopic lengths of the two ends of the roll shaft are respectively delta l1And Δ l2The rotation speed of the motor carrying the roller to rotate is n.
When the system stops running, the control system automatically takes a running numerical value as an initial value, the maximum width value between the first guide rail 5 and the second guide rail 6, the included angle alpha between the extending direction of the first roller 3 and the running direction of the fabric 8 is 90 degrees, the running speed v of the fabric is 0 as a target value, the control system controls the power system and the hydraulic system, and the distances of forward and backward sliding of the roller shafts at two ends are automatically adjusted to be respectively delta m1And Δ m2The telescopic lengths of the two ends of the roll shaft are respectively delta l1And Δ l2And the rotating speed of the motor carrying the roller to rotate is a numerical value of n, and the original state is returned at the moment.
The present invention will be further described below by way of specific application examples and comparative examples, and production equipment used in the following application examples and comparative examples is shown with reference to fig. 4.
In the application embodiment, the functional finishing agent is firstly prepared, then the processed fabric is guided into production equipment, parameters are set, and a power system and a hydraulic system of the production equipment are started to process the fabric.
In the comparative example, the functional finishing agent was prepared first, then the processed fabric was introduced into the production equipment, the power system of the production equipment was started to impregnate, roll, bake, wind the fabric, the hydraulic system was closed, and the fabric was not rolled during the baking process.
Application example 1
Adding 5% of antistatic agent JL-NSX (Shandong polymer force antistatic science and technology Co., Ltd.) and 1% of penetrating agent JFC (Jiangsu province, Haian petrochemical plant) into water according to mass fraction, mixing uniformly to prepare a functional finishing agent, and adding into a dipping tank 300 for later use.
120 m sample cloth (the sample cloth is desized 300D oxford cloth with the thickness of 160g/m2Density 25X17) is connected to a cloth feeding device 200 of the production equipment, the baking temperature is set to 180 ℃, a production equipment operation switch is turned on, the sample cloth is subjected to finishing agent impregnation and rolling by an external roller device 400, then is dried and rolled by a baking machine 100 to prepare a sample No. 1, and the point-to-point resistance after 3 times of water washing are detected according to appendix A of GB 12014 plus 2009 antistatic clothes, and the results are shown in Table 1.
Application example 2
3 percent of smoothing agent, 5 percent of protective agent and 0.1 percent of catalyst are mixed with water according to mass fraction to prepare the anti-drilling finishing agent which is added into the dipping tank 300 for standby. Wherein the smoothing agent is preferably a fluffy smoothing agent with model number DSS produced by Mimex Heyuning Ninghua chemical Co., Ltd, the protective agent is preferably glycerol, and the catalyst is preferably MgCl2。
And (3) taking 120 m sample cloth (the sample cloth is a desized nylon yarn of 380T, 10D and 24F) to be connected into a cloth feeding device 200 of the equipment, setting the baking temperature to be 160 ℃, opening an equipment operation switch, drying and rolling the sample cloth through a baking machine 100 after the sample cloth is impregnated with a finishing agent and is rolled by an external roller device 400, and obtaining a sample No. 2. The sample down drilling quantity and the down drilling quantity after 3 times of water washing are tested according to appendix E friction test method of fabric down drilling resistance test method in national standard GBT 14272 plus 2011 down garment, and the results are shown in Table 1.
Application example 3
Adding 5% of composite mildew-proof antibacterial agent NISSI-1023 (Ringnixi environmental protection materials Co., Ltd.) and 1% of penetrant JFC (Jiangsu province, Haian petrochemical plant) into water according to mass fraction, mixing uniformly to prepare a functional finishing agent, and adding into the dipping tank 300 for later use.
And (3) putting 120 m sample cloth (the sample cloth is 35 g/square meter spun-bonded non-woven fabric) into a cloth feeding device 200 of equipment, setting the baking temperature to be 110 ℃, turning on an equipment operation switch, and drying and rolling the sample cloth by a baking machine 100 after the sample cloth is impregnated with a finishing agent and rolled by an external roller device 400 to obtain a sample 3 #. Then, the antibacterial performance of the test sample and the antibacterial performance after 3 times of water washing are tested according to GB T20944.3-2008 'evaluation of antibacterial performance of textiles part 3-oscillation method', and the results are shown in Table 1.
Comparative example 1
The fabric in the example is the same as the fabric in the example 1, the functional finishing agent is prepared according to the example 1, the production equipment and the method used for finishing the fabric are carried out according to the example 1, and the difference from the example 1 is that: the operation of the internal uniformity roll assembly is turned off, i.e., the fabric is not pressed in the oven 1. Sample # 4 was prepared. The point-to-point resistance and the point-to-point resistance after 3 times of water washing were detected according to appendix A of GB 12014-2009 antistatic clothes, and the results are shown in Table 1.
Comparative example 2
The fabric in the example is the same as the fabric in the example 2, the functional finishing agent is prepared according to the example 2, the production equipment and the method used for finishing the fabric are carried out according to the example 2, and the difference between the production equipment and the method used for finishing the fabric and the example 2 is that: the operation of the internal uniformity roll assembly is turned off, i.e., the fabric is not pressed in the oven 1. Sample # 5 was prepared. The down penetration resistance of the sample and the down penetration resistance after 3 times of water washing were tested according to appendix E friction test method of fabric down penetration resistance test method in national standard GBT 14272 plus 2011 down garment, and the results are shown in Table 1.
Comparative example 3
The fabric in the example is the same as the fabric in the example 3, the functional finishing agent is prepared according to the example 3, the production equipment and the method used for finishing the fabric are carried out according to the example 3, and the difference between the production equipment and the method used for finishing the fabric and the example 3 is that: the operation of the internal uniformity roll assembly is turned off, i.e., the fabric is not pressed in the oven 1. Sample No. 6 was prepared. Then, the antibacterial performance of the test sample and the antibacterial performance after 3 times of water washing are tested according to GB T20944.3-2008 'evaluation of antibacterial performance of textiles part 3-oscillation method', and the results are shown in Table 1.
Table 1 shows the results of testing samples of application examples 1 to 3 and comparative examples 1 to 3
The present invention has been described in detail, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to implement the same, and the protection scope of the present invention should not be limited thereby, and all equivalent changes or modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.
Claims (10)
1. The utility model provides a fabrics curer, includes the oven and the symmetry sets up be used for carrying the first guide rail and the second guide rail of fabric in the oven, its characterized in that: the baking machine further comprises a uniform roll assembly arranged in the oven and used for rolling the fabric, the uniform roll assembly comprises a first roll and a second roll which are respectively connected with the oven through roll shafts, and when the uniform roll assembly rolls the fabric, the first roll and the second roll are positioned between the first guide rail and the second guide rail and are matched with each other to roll the fabric between the first guide rail and the second guide rail.
2. A textile baker according to claim 1, wherein: the baking machine further comprises first sliding parts symmetrically arranged on two sides of the oven and second sliding parts symmetrically arranged on two sides of the oven, the first sliding parts on two sides and the second sliding parts on two sides are movably arranged on the oven respectively, two ends of the roller shaft corresponding to the first roller are arranged on the first sliding parts, two ends of the roller shaft corresponding to the second roller are arranged on the second sliding parts, and the distance between the first roller and the second roller is adjusted through sliding of the first sliding parts and the second sliding parts.
3. A textile baker according to claim 2, wherein: chutes are formed in the positions, corresponding to the roll shafts, of the first sliding parts and the second sliding parts along the running direction of the fabric, two ends, corresponding to the roll shafts, of the first rollers are respectively arranged in the chutes in a sliding mode and in a rotating mode, and two ends, corresponding to the roll shafts, of the second rollers are respectively arranged in the chutes in a sliding mode and in a rotating mode.
4. A textile baker according to claim 3, wherein: the baking machine further comprises a first hydraulic machine, a second hydraulic machine and a control system, wherein the first hydraulic machine is used for driving the first sliding part and the second sliding part to slide on the baking oven respectively, the second hydraulic machine is used for driving the roll shaft of the first roller to slide on the corresponding sliding groove and the roll shaft of the second roller to slide on the corresponding sliding groove respectively, and the control system is electrically connected with the first hydraulic machine and the second hydraulic machine respectively and is used for controlling the first hydraulic machine and the second hydraulic machine to work.
5. A textile baker according to claim 4, wherein: the roller shaft corresponding to the first roller and the roller shaft corresponding to the second roller are respectively telescopic roller shafts, the baking machine further comprises a third hydraulic machine which is respectively used for controlling the extension or shortening of the roller shaft corresponding to the first roller and the extension or shortening of the roller shaft corresponding to the second roller, and the third hydraulic machine is electrically connected with the control system.
6. A textile baker according to claim 4, wherein: the baking machine further comprises a motor for driving the first roller and the second roller to rotate around the axes of the first roller and the second roller respectively, and the motor is electrically connected with the control system.
7. A textile baker according to claim 1, wherein: the uniform roll assemblies are arranged in a plurality, the uniform roll assemblies are sequentially arranged along the running direction of the fabric, and the first roll and the second roll of each uniform roll assembly are distributed up and down.
8. A textile baker according to claim 7, wherein: the first roller is positioned above the second roller, the first roller is a uniform roller, and the second roller is a steel roller.
9. A textile baker according to claim 1, wherein: the first guide rail and/or the second guide rail are movably arranged so that the distance between the first guide rail and the second guide rail is adjustable, and needle plates for fixing two sides of the fabric are respectively arranged on the first guide rail and the second guide rail.
10. The utility model provides a textile production equipment, is including advancing cloth device, flooding groove, roll device, curer and the play cloth device that sets gradually, its characterized in that: the textile baking machine is as claimed in any one of claims 1 to 9.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202120126454.9U CN214271313U (en) | 2021-01-18 | 2021-01-18 | Textile baking machine with hot rolling function and production equipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202120126454.9U CN214271313U (en) | 2021-01-18 | 2021-01-18 | Textile baking machine with hot rolling function and production equipment |
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| CN214271313U true CN214271313U (en) | 2021-09-24 |
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