CN115652603B - Coating device for coating cloth production - Google Patents

Abstract

The utility model provides a coating device is used in coated fabric production, belongs to coated fabric production facility technical field, and in order to solve current clearance effect relatively poor to the cloth surface, lead to the cloth in the conveying process, its surface can adhere to some dust and impurity, if not clear up it, can influence the problem of later stage coating quality; according to the invention, through the absorption assembly, the warning unit and the pretreatment mechanism, the main platform body is connected with the absorption assembly and the warning unit, and the inside of the main platform body is connected with the pretreatment mechanism; according to the invention, the driven rod can drive the linkage assembly to integrally move in the upward moving process, when the driven rod is meshed with the transmission gear, the vibration exciting plate A and the vibration exciting plate B start to rotate, the longer vibration exciting plate A can continuously flap the cloth, so that dust and impurities on the cloth are emptied, the emptied dust and impurities are absorbed completely by the absorption air pump, and in the flapping process, the cloth can be stretched by a downward pulling force due to the stretching of the pulling force spring, so that the cloth is stretched, and the flapping of the vibration exciting plate A is facilitated.

Description

Coating device for coating cloth production

Technical Field

The invention relates to the technical field of coated fabric production equipment, in particular to a coating device for coated fabric production.

Background

The coated fabric is mainly characterized in that a layer of material with special functions is coated on the basis of the fabric by adopting a special process, so that the special functions of the fabric are added. Therefore, the functional coating fabric is also called as a functional coating fabric, and three types of PVC coating, PU coating and semi-PU coating are adopted according to different coating materials, mercerized leather, matt surface, leather preventing, crinkled leather and the like are adopted according to different coating processes, required coating colloidal particles and the like are dissolved into a salivation shape by using a solvent, the solution is uniformly coated on the fabric in a scraper mode, and then a layer of uniform covering sizing material is formed on the surface of the fabric through fixation at the temperature in an oven, so that the functions of water resistance, wind resistance, ventilation and the like are achieved, and a coating device is indispensable.

The current coating device is relatively poor in cleaning effect to the cloth surface before the coating, leads to cloth in the conveying process, and its surface can adhere to some dust and impurity, if not clear up it, can influence later stage coating quality, reduces the quality of product at last, secondly, in solvent unloading in-process, is difficult to accomplish the solvent homogenization, leads to the coating quality inhomogeneous on cloth surface, also can influence product quality.

For this purpose, we propose a coating device for coated fabric production.

Disclosure of Invention

The invention aims to provide a coating device for coating cloth production, which solves the problems that the prior coating device has poor cleaning effect on the surface of cloth before coating, so that dust and impurities are attached to the surface of the cloth in the conveying process, the quality of the coating in the later stage is affected if the dust and impurities are not cleaned, the quality of a product is finally reduced, and in the solvent blanking process, the homogenization of a solvent is difficult to achieve, the uneven quality of the coating on the surface of the cloth is caused, and the quality of the product is also affected.

In order to achieve the above purpose, the present invention provides the following technical solutions: the coating device for coating cloth production comprises a main platform body, cloth rolling parts arranged at two ends of the main platform body, and a coating mechanism arranged at the upper end of the main platform body, wherein an absorption assembly and a warning unit are arranged on the upper surface of the main platform body, a positioning rod is arranged in the main platform body, and a pretreatment mechanism and an upper connecting assembly are also arranged in the main platform body;

the pretreatment mechanism comprises a main transmission rod arranged in a main platform body, rotating parts arranged at two ends of the main transmission rod, transmission teeth arranged at two ends of the outer surface of the main transmission rod, an elastic rod arranged on the outer surface of the rotating part, and a driven rod arranged below the main transmission rod, wherein one end of the main transmission rod is connected with a motor arranged in the rotating part, a first spiral line and a second spiral line are arranged on the outer surface of the driven rod, the spiral directions of the first spiral line and the second spiral line are opposite, two ends of the driven rod are respectively provided with a movable sleeve, the movable sleeve is movably connected with a wall groove formed in the inner wall of the main platform body, and one side of the movable sleeve is provided with a linkage assembly;

the inner wall of the movable sleeve is provided with a magnetic panel which is magnetically connected with the driven rod, the lower end of the movable sleeve is provided with a tension spring, one end of the tension spring is provided with a mounting block, and the outer surface of the mounting block is provided with an induction element;

the sensing element is internally provided with a core processing module and a connection module, one side of the connection module is in signal connection with a stability measuring module, one side of the stability measuring module is provided with a current detection module, one side of the current detection module is provided with a feedback module, and the feedback module is in signal connection with the warning unit;

the linkage assembly comprises linkage teeth arranged in the main platform body, side plates arranged on two sides of the linkage teeth, and a vibration exciting plate A and a vibration exciting plate B which are arranged on the outer surface of one group of the side plates and are movably connected with the linkage teeth, the length of the vibration exciting plate A is greater than that of the vibration exciting plate B, the other group of the side plates are connected with the movable sleeve, and the linkage teeth and the transmission teeth are arranged in the same vertical plane and correspond to each other.

Further, the both sides of main stage body all are provided with electromechanical box, and the both ends of locating lever all are connected with the motor group that sets up in electromechanical box inside, and matching groove A and matching groove B have been seted up to the upper surface of main stage body, and the both ends of main stage body are provided with the open slot, and matching groove A corresponds with coating mechanism, and matching groove B is passed at the both ends of locating lever and is linked together with electromechanical box, and cloth rolling piece corresponds with the open slot.

Further, the absorption assembly comprises an absorption air pump arranged on the upper surface of the main platform body, a guide pipe arranged at one end of the absorption air pump, and a dust removing piece arranged inside the guide pipe, one end of the absorption air pump is communicated with the main platform body, one end of the guide pipe is connected with the coating mechanism, a sinking groove is formed in the bottom of the main platform body, a conductive piece is arranged on the inner wall of the sinking groove, the sinking groove is embedded with the mounting block, and the conductive piece is connected with an external power supply.

Further, the coating mechanism comprises a storage cylinder arranged above the main platform body, a plug hole group arranged on the upper surface of the storage cylinder, rotating parts arranged at two ends of the storage cylinder, and fixed end plates arranged at two sides of the main platform body, wherein the storage cylinder is connected with the fixed end plates through the rotating parts, and the rotating parts correspond to discharge holes arranged at two sides of the storage cylinder.

Further, the coating mechanism further comprises a rubber sleeve arranged on the outer surface of the storage cylinder, a blanking plate inserted in the rubber sleeve in a penetrating mode is arranged on the outer surface of the blanking plate, a gravity valve is arranged in the blanking groove, the blanking groove is communicated with the storage cylinder through the rubber sleeve, and the blanking plate is arranged in the main platform body through a matching groove A.

Further, the inside of storage cylinder is provided with flexible baffle and center pole, and flexible baffle's both ends are inconsistent with storage cylinder inner wall, and flexible baffle's lower extreme is provided with reset spring, and reset spring's one end is connected with storage cylinder inner wall, and flexible baffle passes through center pole and storage cylinder swing joint.

Further, the storage cylinder is divided into an air chamber and a storage chamber through the telescopic partition plate, the air chamber is arranged above the storage chamber, and the storage cylinder is communicated with the guide pipe through the plug hole group.

Further, the bottom of the main platform body is provided with a built-in groove plate, the inside of the built-in groove plate is provided with a bottom magnetic block, the inside of the bottom magnetic block is provided with an outer connecting pipe in a penetrating mode, one end of the outer connecting pipe is communicated with an external air pump, the inside of the main platform body is provided with a guide rail plate, the inside of the guide rail plate is provided with a lifting rod, and one end of the lifting rod is connected with an upper connecting assembly.

Further, connect the subassembly on including setting up in the inside last section of thick bamboo that connects of main platform body, set up at the entering pipe and the discharge pipe that connect the section of thick bamboo lower extreme, set up at the connecting piece that connects the section of thick bamboo both ends to and set up at the inside air-blowing subassembly and the return ring pipe that connect the section of thick bamboo, air-blowing subassembly is linked together with the return ring pipe, the inside of entering pipe and discharge pipe all is provided with the magnetism shrouding, the magnetism shrouding is provided with two sets of, two sets of magnetism shrouding all with entering pipe and discharge pipe inner wall swing joint.

Further, the air blowing component comprises an air blowing bag arranged inside the upper connecting cylinder, and telescopic supporting rods and pressure valve pipes arranged at two ends of the air blowing bag, one end of each telescopic supporting rod is connected with the inner wall of the upper connecting cylinder, each pressure valve pipe is communicated with the corresponding return pipe, the inlet pipe and the outlet pipe are corresponding to the bottom magnetic block, the bottom magnetic block and the magnetic sealing plate are the same in magnetism, a water receiving pipe communicated with the outside is arranged on one side of the air blowing bag, and a heat insulation layer is arranged on the outer surface of the air blowing bag.

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

1. the coating device for producing the coated fabric has poor cleaning effect on the surface of the fabric in the prior art, so that dust and impurities are adhered to the surface of the fabric in the conveying process, the later coating quality is influenced and the quality of the product is finally reduced if the fabric is not cleaned, the main transmission rod is arranged in the main table body, the rotating parts are arranged at the two ends of the main transmission rod, the transmission teeth are arranged at the two ends of the outer surface of the main transmission rod, the elastic rod is arranged on the outer surface of the rotating part, the driven rod is arranged below the main transmission rod, one end of the main transmission rod is connected with the motor arranged in the rotating part, the first spiral vein and the second spiral vein are arranged on the outer surface of the driven rod, the spiral directions of the first spiral vein and the second spiral vein are opposite, the two ends of the driven rod are respectively provided with a movable sleeve, the movable sleeve is movably connected with a wall groove formed on the inner wall of the main platform body, one side of the movable sleeve is provided with a linkage assembly, secondly, the inner wall of the movable sleeve is provided with a magnetic panel which is magnetically connected with a driven rod, the lower end of the movable sleeve is provided with a tension spring, one end of the tension spring is provided with a mounting block, the outer surface of the mounting block is provided with an inductive element, wherein the inside of the inductive element is provided with a core processing module and a connection module, one side of the connection module is in signal connection with a stability measuring module, one side of the stability measuring module is provided with a current detection module, one side of the current detection module is provided with a feedback module which is in signal connection with a warning unit, secondly, the inside of the main platform body is provided with linkage teeth, two sides of the linkage teeth are provided with side plates, one group of which are provided with an excitation plate A and an excitation plate B on the outer surface of the side plates, the length of shock excitation board A is greater than the length of shock excitation board B, another group the side position dish is connected with movable sleeve, linkage tooth and drive tooth set up in same vertical plane, and corresponding, cloth is on main transfer line and driven lever, frictional force is invariable, when the rolling force of increaseing the cloth rolling piece, tension spring can be upwards pulled, simultaneously magnetic panel and driven lever break away gradually, when driven lever passive rotation, first helical line and second helical line follow rotatory, can play the effect of spreading to both sides from the centre to the cloth surface, simultaneously driven lever is in the upward movement in-process, can drive the linkage subassembly and wholly remove, when it is connected with the transmission tooth meshing, shock excitation board A and shock excitation board B begin to rotate, longer shock board A can be continuous beat the cloth, make dust impurity vacate on the cloth, the dust impurity that the utilization absorption air pump will vacate absorbs totally, and in the in-process, because tension spring's tensile, the cloth can receive a decurrent pulling force, make the atress of cloth bigger, make cloth sink plate A be convenient for the cloth, the tensile force of the tension module is separated at the middle, install the tension module, the time of the measuring and the load-carrying module is separated to the load-carrying module, the load-carrying module is not cut off, the load-carrying module is separated to the normal, the quality is reached through measuring and the load-carrying module is broken, the quality is not normally, the load-carrying module is kept separately, and the load is separated, the load is passed through the module is separated, and is measured and is passed and is separated, and is passed and has the load and is broken and is passed.

2. The invention provides a coating device for coating cloth production, in the prior art, in the solvent blanking process, the solvent is difficult to homogenize, so that the coating quality on the surface of the cloth is uneven, and the product quality is also influenced, a storage cylinder is arranged above a main platform body, the upper surface of the storage cylinder is provided with a plug hole group, two ends of the storage cylinder are provided with rotating parts, two sides of the main platform body are provided with fixed end plates, the storage cylinder is connected with the fixed end plates through the rotating parts, the rotating parts correspond to discharge holes arranged at two sides of the storage cylinder, the outer surface of the storage cylinder is provided with a rubber sleeve, a blanking plate is arranged inside the rubber sleeve, a blanking groove is arranged on the outer surface of the blanking plate, a gravity valve is arranged inside the blanking groove, the blanking groove is communicated with the storage cylinder through the rubber sleeve, the blanking plate is arranged inside the main platform body through a matching groove A, simultaneously, the inside of the storage cylinder is provided with a telescopic baffle and a central rod, the two ends of the telescopic baffle are in contact with the inner wall of the storage cylinder, the lower end of the telescopic baffle is provided with a return spring, one end of the return spring is connected with the inner wall of the storage cylinder, the telescopic baffle is movably connected with the storage cylinder through the central rod, the storage cylinder is divided into an air chamber and a storage chamber through the telescopic baffle, the air chamber is arranged above the storage chamber, the storage cylinder is communicated with a guide pipe through a plug hole group, in the process of absorbing emptied dust, the air flow is firstly removed by a dust removing part, the air flow enters the storage cylinder, the telescopic baffle moves downwards, the pressure born by a gravity valve is gradually increased along with the increase of the pressure, so that the return spring is opened, the solvent falls down along a blanking groove, and meanwhile, the slope of the blanking plate is larger, the blanking speed is slower, so that the effect of controlling the blanking speed is realized, finally, the solvent falling along the blanking groove passes through the positioning rod and the upper connecting component, so that the solvent is uniformly spread on the cloth, and the coating quality is improved.

3. In the coating device for producing the coated fabric, when solvent is uniformly spread on the fabric in the prior art, along with long-time friction of the fabric, an upper connecting component is continuously heated, the fabric is adversely affected by long-time high temperature, the bottom of a main table body is provided with a built-in groove plate, the inside of the built-in groove plate is provided with a bottom magnetic block, the inside of the bottom magnetic block is provided with an outer connecting pipe in a penetrating way, one end of the outer connecting pipe is communicated with an external air pump, the inside of the main table body is provided with a guide rail plate, the inside of the guide rail plate is provided with a lifting rod, one end of the lifting rod is connected with the upper connecting component, the lower end of the upper connecting cylinder is provided with an inlet pipe and an outlet pipe, two ends of the upper connecting cylinder are provided with connecting pieces, the inside of the upper connecting cylinder is provided with an air blowing component and a loop pipe, the air blowing component is communicated with the loop pipe, the inner parts of the inlet pipe and the outlet pipe are respectively provided with two groups of magnetic sealing plates, the two groups of magnetic sealing plates are movably connected with the inner walls of the inlet pipe and the outlet pipe, the inner part of the upper connecting barrel is provided with a blowing bag, the two ends of the blowing bag are provided with a telescopic support rod and a pressure valve pipe, one end of the telescopic support rod is connected with the inner wall of the upper connecting barrel, the pressure valve pipe is communicated with the loop pipe, the inlet pipe and the outlet pipe are corresponding to the bottom magnetic block, the bottom magnetic block and the magnetic sealing plates have the same magnetism, one side of the blowing bag is provided with a water receiving pipe communicated with the outside, a certain amount of water is filled in the blowing bag, the water in the blowing bag enters the loop pipe through extrusion, the contact area between the water and the heat is increased, when the water in the loop pipe absorbs heat and saturates, the inlet pipe and the outlet pipe are corresponding to the bottom magnetic block, and the bottom magnetic block generate repulsive force when the water and the magnetic sealing plates are mutually close, the magnetic sealing plate is opened, water in the loop pipe is discharged from the magnetic sealing plate and sequentially reciprocates to form a cooling effect on the upper connecting cylinder, and the adverse effect on cloth caused by long-time high temperature of the upper connecting cylinder is prevented.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a coating device for producing coated fabric;

FIG. 2 is a schematic diagram of the main table of the coating device for producing coated fabric;

FIG. 3 is a schematic view showing the internal plane structure of a main body of a coating device for producing coated fabric according to the present invention;

FIG. 4 is a schematic view showing the internal perspective structure of a main body of a coating device for producing coated fabric according to the present invention;

FIG. 5 is a schematic structural view of a pretreatment mechanism of a coating device for producing coated fabric;

FIG. 6 is a schematic diagram of the movable sleeve of the coating device for producing the coated fabric;

FIG. 7 is a schematic diagram of the linkage assembly of the coating device for producing coated fabric according to the present invention;

FIG. 8 is a schematic diagram of a coating mechanism of a coating device for producing coated fabric according to the present invention;

FIG. 9 is a schematic view showing the internal structure of a storage cylinder of a coating device for producing coated fabric;

FIG. 10 is a schematic view showing the structure of an upper connecting component of the coating device for producing coated fabric;

FIG. 11 is a schematic diagram of the air-blowing assembly of the coating device for producing coated fabric according to the present invention;

FIG. 12 is a schematic view of the inlet pipe structure of the coating device for producing coated fabric according to the present invention;

FIG. 13 is a flow chart of the sensing element of the coating device for producing coated fabric according to the present invention.

In the figure: 1. a main table body; 11. an electromechanical housing; 12. a matching groove A; 13. a matching groove B; 14. an open slot; 15. sinking grooves; 16. a conductive member; 17. a groove plate is arranged in the groove plate; 171. a bottom magnetic block; 172. an outer connecting pipe; 18. a guide rail plate; 181. a lifting rod; 2. a cloth winding piece; 3. a coating mechanism; 31. a storage cylinder; 311. a retractable partition; 312. a central rod; 313. a return spring; 32. a plug hole group; 33. a rotating member; 34. fixing the end plate; 35. a rubber sleeve; 36. a blanking plate; 37. discharging groove; 38. a gravity valve; 4. an absorbent assembly; 41. an absorption air pump; 42. a guide pipe; 43. a dust removing member; 5. a warning unit; 6. a positioning rod; 7. a pretreatment mechanism; 71. a main transmission rod; 72. a drive tooth; 73. a rotating member; 74. an elastic rod; 75. a driven rod; 751. a first helical thread; 752. a second spiral thread; 76. a movable sleeve; 761. a magnetic panel; 762. a tension spring; 763. a mounting block; 764. an inductive element; 7641. a core processing module; 7642. the module is connected; 7643. a stability determination module; 7644. a current detection module; 7645. a feedback module; 77. a linkage assembly; 771. linkage teeth; 772. a side position plate; 773. exciting plate A; 774. exciting plate B; 8. an upper connecting component; 81. an upper connecting cylinder; 82. an inlet tube; 83. a discharge pipe; 84. a connecting piece; 85. a gas blowing assembly; 851. blowing the bag; 852. a telescopic strut; 853. a pressure valve tube; 86. a loop pipe; 87. and a magnetic sealing plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the technical problem of how to pretreat the cloth, as shown in fig. 1, 2, 4-7 and 13, the following preferred technical scheme is provided:

the utility model provides a coating device is used in coating cloth production, includes main stage body 1, sets up the cloth rolling piece 2 at main stage body 1 both ends to and set up the coating mechanism 3 in main stage body 1 upper end, the upper surface of main stage body 1 is provided with absorption subassembly 4 and warning unit 5, and the inside of main stage body 1 is provided with locating lever 6, and the inside of main stage body 1 still is provided with pretreatment mechanism 7 and connects subassembly 8 on.

The pretreatment mechanism 7 comprises a main transmission rod 71 arranged inside a main platform body 1, rotating pieces 73 arranged at two ends of the main transmission rod 71, transmission teeth 72 arranged at two ends of the outer surface of the main transmission rod 71, an elastic rod 74 arranged on the outer surface of the rotating pieces 73, and a driven rod 75 arranged below the main transmission rod 71, wherein one end of the main transmission rod 71 is connected with a motor arranged inside the rotating pieces 73, a first spiral line 751 and a second spiral line 752 are arranged on the outer surface of the driven rod 75, the spiral directions of the first spiral line 751 and the second spiral line 752 are opposite, movable sleeves 76 are arranged at two ends of the driven rod 75, the movable sleeves 76 are movably connected with wall grooves formed in the inner wall of the main platform body 1, and a linkage assembly 77 is arranged on one side of each movable sleeve 76.

A magnetic plate 761 is provided on the inner wall of the movable sleeve 76, the magnetic plate 761 is magnetically connected with the driven rod 75, a tension spring 762 is provided at the lower end of the movable sleeve 76, a mounting block 763 is provided at one end of the tension spring 762, and an induction element 764 is provided on the outer surface of the mounting block 763.

The inside of sensing element 764 is provided with core processing module 7641 and switch-on module 7642, and one side signal connection of switch-on module 7642 has stability survey module 7643, and one side of stability survey module 7643 is provided with current detection module 7644, and one side of current detection module 7644 is provided with feedback module 7645, feedback module 7645 and warning unit 5 signal connection.

The linkage assembly 77 comprises linkage teeth 771 arranged in the main table body 1, side plates 772 arranged on two sides of the linkage teeth 771, and an excitation plate A773 and an excitation plate B774 arranged on the outer surface of one group of the side plates 772, wherein the linkage teeth 771 are movably connected with the linkage teeth 771, the length of the excitation plate A773 is greater than that of the excitation plate B774, the other group of the side plates 772 are connected with the movable sleeve 76, and the linkage teeth 771 and the transmission teeth 72 are arranged in the same vertical plane and correspond to each other.

The both sides of main stage body 1 all are provided with electromechanical box 11, and the both ends of locating lever 6 all are connected with the motor group that sets up in electromechanical box 11 inside, and matching groove A12 and matching groove B13 have been seted up to the upper surface of main stage body 1, and the both ends of main stage body 1 are provided with open slot 14, and matching groove A12 corresponds with coating mechanism 3, and the both ends of locating lever 6 pass matching groove B13 and electromechanical box 11 and are linked together, and cloth rolling piece 2 corresponds with open slot 14.

The absorption assembly 4 comprises an absorption air pump 41 arranged on the upper surface of the main platform body 1, a guide pipe 42 arranged at one end of the absorption air pump 41, and a dust removing piece 43 arranged inside the guide pipe 42, wherein one end of the absorption air pump 41 is communicated with the main platform body 1, one end of the guide pipe 42 is connected with the coating mechanism 3, a sinking groove 15 is arranged at the bottom of the main platform body 1, a conductive piece 16 is arranged on the inner wall of the sinking groove 15, the sinking groove 15 is embedded with the mounting block 763, and the conductive piece 16 is connected with an external power supply.

Specifically, when cloth is on main transfer line 71 and slave lever 75, frictional force is invariable, when the rolling force of increaseing cloth rolling piece 2, tension spring 762 can be upwards pulled, simultaneously magnetism panel 761 breaks away from with slave lever 75 gradually, when slave lever 75 passively rotates, first spiral line 751 and second spiral line 752 follow rotatory, can play the effect of expanding to both sides from the centre to the cloth surface, simultaneously slave lever 75 is in the upward movement in-process, can drive linkage assembly 77 global motion, when it is connected with transmission tooth 72 meshing, excitation plate A773 and excitation plate B774 begin to rotate, longer excitation plate A773 can be continuous beat the cloth, make the dust impurity vacation on the cloth, reuse absorption air pump 41 will vacate the dust impurity absorption clean, and in the beat the in-process, because tension spring 762's tensile, make the cloth atress more tight, be convenient for excitation plate A773's effect of beating, secondly, in the tensile spring 762, install piece and install piece 7643 and the complete piece with the maximum separation of contact with the transmission groove 7645, the quality is not normally carried out through the complete piece with the complete piece of measuring with 7645, the load-carrying piece 7645, the quality is not normally is kept apart to the module is reached, and the quality is normally is kept up through measuring and is improved, the load-carrying module 7645 is not connected with the load-carrying piece is completely through the piece 7645, the quality is measured and is normally, the quality is not kept up through the piece is kept up to be separated.

In order to solve the technical problem of how to uniformly spread the solvent on the cloth, as shown in fig. 8 and 9, the following preferred technical scheme is provided:

the coating mechanism 3 comprises a storage cylinder 31 arranged above the main platform body 1, a plug hole group 32 arranged on the upper surface of the storage cylinder 31, rotating pieces 33 arranged at two ends of the storage cylinder 31, and fixed end plates 34 arranged at two sides of the main platform body 1, wherein the storage cylinder 31 is connected with the fixed end plates 34 through the rotating pieces 33, and the rotating pieces 33 correspond to discharge ports arranged at two sides of the storage cylinder 31.

The coating mechanism 3 further comprises a rubber sleeve 35 arranged on the outer surface of the storage barrel 31, a blanking plate 36 penetrating through the rubber sleeve 35 is arranged inside the rubber sleeve, a blanking groove 37 is formed in the outer surface of the blanking plate 36, a gravity valve 38 is arranged in the blanking groove 37, the blanking groove 37 is communicated with the storage barrel 31 through the rubber sleeve 35, and the blanking plate 36 is arranged inside the main platform body 1 through a matching groove A12.

The inside of storage section of thick bamboo 31 is provided with flexible baffle 311 and center pole 312, and the both ends of flexible baffle 311 are inconsistent with storage section of thick bamboo 31 inner wall, and the lower extreme of flexible baffle 311 is provided with reset spring 313, and reset spring 313's one end is connected with storage section of thick bamboo 31 inner wall, and flexible baffle 311 passes through center pole 312 and storage section of thick bamboo 31 swing joint.

The storage cylinder 31 is divided into an air chamber and a storage chamber by the telescopic partition 311, the air chamber is arranged above the storage chamber, and the storage cylinder 31 is communicated with the guide pipe 42 by the plug hole group 32.

Specifically, in the process of absorbing the emptied dust, the air flow is removed by the dust removing member 43, the air flow enters the storage barrel 31, the telescopic partition plate 311 moves downwards, the gravity valve 38 is gradually increased under the pressure along with the pressure increase, so that the solvent is opened, the solvent falls down along the blanking groove 37, meanwhile, the larger the slope of the blanking plate 36 is by controlling the angle of the storage barrel 31, the slower the blanking speed is, so that the effect of controlling the blanking speed is realized, and finally, the solvent falling down along the blanking groove 37 is uniformly spread on the cloth through the positioning rod 6 and the upper connecting component 8, so that the coating quality is improved.

In order to solve the technical problem of how to reduce the adverse effect of the high temperature of the upper connecting cylinder 81 on the cloth, as shown in fig. 3 and fig. 10-12, the following preferred technical scheme is provided:

the bottom of the main platform body 1 is provided with built-in groove plate 17, the inside of built-in groove plate 17 is provided with a bottom magnetic block 171, the inside of bottom magnetic block 171 runs through and is provided with outer takeover 172, the one end of outer takeover 172 is linked together with external air pump, the inside of main platform body 1 is provided with guide rail plate 18, the inside of guide rail plate 18 is provided with lifter 181, the one end of lifter 181 is connected with the upper junction assembly 8.

The upper connecting assembly 8 comprises an upper connecting barrel 81 arranged in the main platform body 1, an inlet pipe 82 and an outlet pipe 83 arranged at the lower end of the upper connecting barrel 81, connecting pieces 84 arranged at the two ends of the upper connecting barrel 81, and an air blowing assembly 85 and an air return pipe 86 arranged in the upper connecting barrel 81, wherein the air blowing assembly 85 is communicated with the air return pipe 86, magnetic sealing plates 87 are arranged in the inlet pipe 82 and the outlet pipe 83, the magnetic sealing plates 87 are provided with two groups, and the two groups of magnetic sealing plates 87 are movably connected with the inner walls of the inlet pipe 82 and the outlet pipe 83.

The air blowing component 85 comprises an air blowing bag 851 arranged inside the upper connecting cylinder 81, a telescopic support rod 852 and a pressure valve pipe 853, wherein the telescopic support rod 852 and the pressure valve pipe 853 are arranged at two ends of the air blowing bag 851, one end of the telescopic support rod 852 is connected with the inner wall of the upper connecting cylinder 81, the pressure valve pipe 853 is communicated with the loop pipe 86, the inlet pipe 82 and the outlet pipe 83 are corresponding to the bottom magnetic block 171, the bottom magnetic block 171 is identical to the magnetic sealing plate 87 in magnetism, a water receiving pipe communicated with the outside is arranged on one side of the air blowing bag 851, and a heat insulation layer is arranged on the outer surface of the air blowing bag 851.

Specifically, a certain amount of water is filled in the blowing bag 851, and then the water in the blowing bag 851 enters the loop pipe 86 through extrusion, so that the contact area between the water and heat is increased, when the water in the loop pipe 86 absorbs heat and is saturated, the inlet pipe 82 and the outlet pipe 83 are corresponding to the bottom magnetic block 171, when the water in the loop pipe 86 approaches to each other, the bottom magnetic block 171 and the magnetic sealing plate 87 generate repulsive force, the magnetic sealing plate 87 is opened, the water in the loop pipe 86 is discharged, and the water in the loop pipe 86 sequentially reciprocates to form a cooling effect on the upper connecting cylinder 81, so that the adverse effect on cloth caused by long-time high temperature of the upper connecting cylinder 81 is prevented.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims (9)

1. Coating device is used in coating cloth production, including main stage body (1), set up cloth rolling spare (2) at main stage body (1) both ends to and set up coating mechanism (3) at main stage body (1) upper end, its characterized in that: the upper surface of the main platform body (1) is provided with an absorption assembly (4) and a warning unit (5), the inside of the main platform body (1) is provided with a positioning rod (6), and the inside of the main platform body (1) is also provided with a pretreatment mechanism (7) and an upper connection assembly (8);

the pretreatment mechanism (7) comprises a main transmission rod (71) arranged in the main platform body (1), rotating pieces (73) arranged at two ends of the main transmission rod (71), transmission teeth (72) arranged at two ends of the outer surface of the main transmission rod (71), an elastic rod (74) arranged on the outer surface of the rotating pieces (73) and a driven rod (75) arranged below the main transmission rod (71), one end of the main transmission rod (71) is connected with a motor arranged in the rotating pieces (73), a first spiral pattern (751) and a second spiral pattern (752) are arranged on the outer surface of the driven rod (75), the spiral directions of the first spiral pattern (751) and the second spiral pattern (752) are opposite, movable sleeves (76) are arranged at two ends of the driven rod (75), the movable sleeves (76) are movably connected with wall grooves formed in the inner wall of the main platform body (1), and a linkage assembly (77) is arranged on one side of each movable sleeve (76);

a magnetic panel (761) is arranged on the inner wall of the movable sleeve (76), the magnetic panel (761) is magnetically connected with the driven rod (75), a tension spring (762) is arranged at the lower end of the movable sleeve (76), a mounting block (763) is arranged at one end of the tension spring (762), and an induction element (764) is arranged on the outer surface of the mounting block (763);

the inside of the sensing element (764) is provided with a core processing module (7641) and a connection module (7642), one side of the connection module (7642) is connected with a stability measuring module (7643) in a signal mode, one side of the stability measuring module (7643) is provided with a current detection module (7644), one side of the current detection module (7644) is provided with a feedback module (7645), and the feedback module (7645) is connected with an alarm unit (5) in a signal mode;

the linkage assembly (77) comprises linkage teeth (771) arranged in the main platform body (1), side plates (772) arranged on two sides of the linkage teeth (771), and an excitation plate A (773) and an excitation plate B (774) arranged on the outer surface of one group of the side plates (772), wherein the length of the excitation plate A (773) is larger than that of the excitation plate B (774) and is movably connected with the linkage teeth (771), the other group of the side plates (772) are connected with the movable sleeve (76), and the linkage teeth (771) and the transmission teeth (72) are arranged in the same vertical plane and correspond to each other;

the absorption assembly (4) comprises an absorption air pump (41) arranged on the upper surface of the main platform body (1), a guide connecting pipe (42) arranged at one end of the absorption air pump (41) and a dust removing piece (43) arranged inside the guide connecting pipe (42), one end of the absorption air pump (41) is communicated with the main platform body (1), one end of the guide connecting pipe (42) is connected with the coating mechanism (3), a sink groove (15) is arranged at the bottom of the main platform body (1), a conductive piece (16) is arranged on the inner wall of the sink groove (15), the sink groove (15) is embedded with the mounting block (763), and the conductive piece (16) is connected with an external power supply.

2. A coating apparatus for producing coated fabric as claimed in claim 1, wherein: both sides of main table body (1) all are provided with electromechanical box (11), and the both ends of locating lever (6) all are connected with the motor group that sets up in electromechanical box (11) inside, and matching groove A (12) and matching groove B (13) have been seted up to the upper surface of main table body (1), and the both ends of main table body (1) are provided with open slot (14), and matching groove A (12) are corresponding with coating mechanism (3), and matching groove B (13) are passed at the both ends of locating lever (6) and are linked together with electromechanical box (11), and cloth rolling piece (2) are corresponding with open slot (14).

3. A coating apparatus for producing coated fabric as claimed in claim 2, wherein: the coating mechanism (3) comprises a storage cylinder (31) arranged above the main platform body (1), a plug hole group (32) arranged on the upper surface of the storage cylinder (31), rotating pieces (33) arranged at two ends of the storage cylinder (31) and fixed end plates (34) arranged at two sides of the main platform body (1), wherein the storage cylinder (31) is connected with the fixed end plates (34) through the rotating pieces (33), and the rotating pieces (33) correspond to discharge ports arranged at two sides of the storage cylinder (31).

4. A coating apparatus for producing coated fabric as claimed in claim 3, wherein: the coating mechanism (3) further comprises a rubber sleeve (35) arranged on the outer surface of the storage barrel (31), a blanking plate (36) penetrating through the rubber sleeve (35) is arranged on the outer surface of the blanking plate (36), a blanking groove (37) is formed in the outer surface of the blanking plate (36), a gravity valve (38) is arranged in the blanking groove (37), the blanking groove (37) is communicated with the storage barrel (31) through the rubber sleeve (35), and the blanking plate (36) is arranged in the main platform body (1) through a matching groove A (12).

5. The coating device for producing coated fabric according to claim 4, wherein: the inside of storage section of thick bamboo (31) is provided with flexible baffle (311) and center pole (312), and the both ends of flexible baffle (311) are inconsistent with storage section of thick bamboo (31) inner wall, and the lower extreme of flexible baffle (311) is provided with reset spring (313), and the one end of reset spring (313) is connected with storage section of thick bamboo (31) inner wall, and flexible baffle (311) are through center pole (312) and storage section of thick bamboo (31) swing joint.

6. The coating device for producing coated fabric according to claim 5, wherein: the storage cylinder (31) is divided into an air chamber and a storage chamber through a telescopic partition plate (311), the air chamber is arranged above the storage chamber, and the storage cylinder (31) is communicated with the guide connection pipe (42) through the plug hole group (32).

7. The coating device for producing coated fabric according to claim 6, wherein: the bottom of main platform body (1) is provided with built-in frid (17), and the inside of built-in frid (17) is provided with end magnetic path (171), and the inside of end magnetic path (171) is run through and is provided with outer takeover (172), and the one end and the external air pump of outer takeover (172) are linked together, and the inside of main platform body (1) is provided with guide rail plate (18), and the inside of guide rail plate (18) is provided with lifter (181), and the one end and the last subassembly (8) that connect of lifter (181) are connected.

8. The coating device for producing coated fabric according to claim 7, wherein: connect subassembly (8) on including setting up in the inside last section of thick bamboo (81) of main platform body (1), set up in last admission line (82) and discharge pipe (83) that connect section of thick bamboo (81) lower extreme, set up in last connecting piece (84) at section of thick bamboo (81) both ends to and set up in last internal air-blowing subassembly (85) and return ring pipe (86) that connect section of thick bamboo (81), air-blowing subassembly (85) are linked together with return ring pipe (86), the inside of admission line (82) and discharge pipe (83) all is provided with magnetic seal board (87), magnetic seal board (87) are provided with two sets of, two sets of magnetic seal board (87) all with admission line (82) and discharge pipe (83) inner wall swing joint.

9. The coating device for producing coated fabric according to claim 8, wherein: the air blowing assembly (85) comprises an air blowing bag (851) arranged inside the upper connecting cylinder (81), and telescopic support rods (852) and pressure valve pipes (853) arranged at two ends of the air blowing bag (851), one ends of the telescopic support rods (852) are connected with the inner wall of the upper connecting cylinder (81), the pressure valve pipes (853) are communicated with the loop pipes (86), the inlet pipes (82) and the outlet pipes (83) are corresponding to the bottom magnetic blocks (171), the bottom magnetic blocks (171) are identical in magnetism to the magnetic sealing plates (87), water receiving pipes communicated with the outside are arranged on one sides of the air blowing bag (851), and heat insulation layers are arranged on the outer surfaces of the air blowing bag (851).