CN113529301A - Antibacterial agent spraying device for plant antibacterial printed fabric - Google Patents

Abstract

The invention discloses an antibacterial agent spraying device for a plant antibacterial printed fabric, and relates to the technical field of fabric processing. The antibacterial agent spraying device for the plant antibacterial printed fabric comprises a base, a spraying box, a drying box and a liquid supply box, wherein the spraying box is welded at the top end of the base, the drying box is arranged on one side of the spraying box in a buckling mode, the drying box is communicated with the inside of the spraying box, the liquid supply box is arranged at the top end of the drying box through a bolt, the dust removal mechanism, the feeding mechanism, the tension adjusting mechanism and the spraying mechanism are arranged in the spraying box, so that the printed fabric can be conveniently subjected to dust removal, feeding, spraying and tension adjustment through the dust removal mechanism, the feeding mechanism, the tension adjusting mechanism and the spraying mechanism which are arranged in the spraying box, and the dust extraction motor on the top end surface of the spraying box is used for performing adsorption type dust removal on the surface of the printed fabric in cooperation with the dust collection plate which is arranged in the dust removal box in a buckling mode, so that the situation that the spraying effect is influenced due to the fact that dust impurities are attached to the surface of the printed fabric is avoided.

Description

Antibacterial agent spraying device for plant antibacterial printed fabric

Technical Field

The invention relates to the technical field of fabric processing, in particular to an antibacterial agent spraying device for a plant antibacterial printed fabric.

Background

The printed fabric is a textile fabric composed of fibers, and is a good parasitic body for the survival and propagation of microorganisms due to the porous object shape and the chemical structure of the high molecular polymer, and the parasitic body can pollute the fibers besides the harm to human bodies, so that the problem that the printed fabric is easy to adhere to the microorganisms is solved by spraying an antibacterial agent.

The spraying of the printed fabric antibacterial agent is generally finished by using an antibacterial agent spraying device for the printed fabric, but the existing antibacterial agent spraying device for the printed fabric only has the spraying and drying functions.

After retrieval, as disclosed in chinese patent literature, an antibacterial agent spraying device for natural plant antibacterial fabric [ application number: 20201134183, respectively; publication No.: CN 112458648A, the antibacterial agent spraying device comprises a fixed base, a spraying processing bin, a drying bin, a spraying structure, a tensioning structure and a drying structure; the utility model discloses a spray machining storehouse, including unable adjustment base's upper surface one side fixedly connected with spraying processing storehouse, fixed mounting has the spraying structure in the inner chamber in spraying processing storehouse, the spraying structure includes pump, pump-motor connecting pipe, fixed pipe and nozzle, the upper surface department fixed mounting in spraying processing storehouse has the pump, the defeated department fixedly connected with pump-motor connecting pipe of pump, equal fixedly connected with connecting pipe, two of both sides department about the inner chamber wall in spraying processing storehouse equal fixedly connected with fixed pipe in one end department of connecting pipe, communicate each other between the inner chamber of fixed pipe and connecting pipe, the arc wall department fixed mounting of fixed pipe has the nozzle, the inner chamber wall department fixed mounting in spraying processing storehouse has the take-up structure, the take-up structure includes the fixed casing of rectangle, rectangle slider, coil spring, connection loop bar, connecting spring, connecting rod, The inner cavity wall of the spraying processing bin is fixedly connected with a rectangular fixing shell, a rectangular sliding block is connected in an inner cavity of the rectangular fixing shell in a sliding manner, one side wall of the rectangular sliding block is fixedly connected with one end of a spiral spring, the other end of the spiral spring extends to the inner cavity side wall of the rectangular fixing shell and is fixedly connected with the inner cavity side wall of the rectangular fixing shell, the lower surface of the rectangular sliding block is fixedly connected with one end of a connecting loop bar, the other end of the connecting loop bar penetrates through the inner cavity wall of the rectangular fixing shell and extends out of the wall, the connecting loop bar is in sliding fit with the inner cavity wall of the rectangular fixing shell, a connecting rod is connected in the inner cavity of the connecting loop bar in a sliding manner, the upper end of the connecting rod is fixedly connected with one end of the connecting spring, and the other end of the connecting spring extends to the inner cavity wall of the connecting loop bar and is fixedly connected with the inner cavity wall of the connecting loop bar, the bottom department fixedly connected with dead lever of connecting rod, the arc wall department of dead lever rotates and is connected with and rotates a section of thick bamboo, the arc wall department fixedly connected with outer sleeve of a section of thick bamboo rotates.

Although the antiseptic spraying device disclosed in this patent can remove dust in advance to the surface fabric, this antiseptic spraying device utilizes the barrel casing to remove dust to the surface fabric, and the dust removal effect is relatively poor, and easy secondary pollution surface fabric utilizes the barrel casing to remove dust to the surface fabric moreover, needs the hand to dismantle and changes the dust removal barrel casing, influences spraying efficiency, and the steam that produces in addition can't retrieve and recycle, and consequently, it is very necessary to design the spraying device of a surface fabric.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an antibacterial agent spraying device for a plant antibacterial printed fabric, which solves the problems that the spraying efficiency is influenced, hot air generated during drying cannot be recycled, and the spraying effect is influenced because the spraying effect is difficult to be finely absorbed by the printed fabric because the fabric is dedusted by a barrel sleeve, the dedusting effect is poor, the fabric is easily secondarily polluted, the dust of the fabric is dedusted by the barrel sleeve, the dedusting barrel sleeve needs to be disassembled and replaced by hands.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: an antibacterial agent spraying device for plant antibacterial printed fabric comprises a base, a spraying box, a drying box and a liquid supply box, wherein the spraying box is welded on the top end of the base, the drying box is installed on one side of the spraying box in a buckling manner, the drying box is communicated with the inside of the spraying box, the liquid supply box is installed on the top end of the drying box through bolts, a dust removing mechanism, a feeding mechanism, a tension adjusting mechanism and a spraying mechanism are installed inside the spraying box, a driving mechanism is installed on the rear surface of the spraying box, the dust removing mechanism is located on one side of the feeding mechanism, the tension adjusting mechanism is located at the bottom end of the feeding mechanism, a feeding hole is formed in the surface of one side of the spraying box, a discharging hole is formed in the surface of one side of the drying box, the dust removing mechanism comprises a guide cover, a dust removing box, a dust collecting plate and a dust collecting motor, the dust collecting motor is inlaid in the surface of the top end of the spraying box, the guide cover is buckled in the spraying box, and guide cover one end and feed inlet communicate each other, the dust removal box welds in the guide cover other end, and the inside intercommunication each other of dust removal box and guide cover, the dust absorption integrated circuit board is detained inside the dust removal box, take out the dirt motor and take out the dirt mouth and communicate each other with dust absorption plate dust exhaust mouth, the air inlet duct has been seted up to the base rear surface, the air inlet duct communicates each other with the drying cabinet is inside, drying cabinet one side surface inlays and has hot gas delivery pipe.

Further, feeding mechanism is including cylinder, mounting bracket, drive roller and the roller of exerting pressure, the cylinder is inlayed in spraying incasement wall, the drive roller is installed in the mounting bracket, the groove of exerting pressure has been seted up on the mounting bracket surface, the inside slidable mounting of groove of exerting pressure has the slider, the roller buckle of exerting pressure is installed in slider side surface, the buckle is connected between cylinder telescopic link and the slider.

Further, tension adjustment mechanism is including carriage, electric putter, spout and tension roller, the carriage inner wall is seted up to the spout, electric putter inlays in the inside one end of spout, the equal thread slipping in the spout in tension roller both ends, electric putter one end and tension roller thread slipping buckle between the frame and be connected to the buckle.

Further, tension adjustment mechanism is still including extending frame, leading truck, spacing roller and guide roll, extend the frame and pass through the bolt and install in the carriage bottom, the leading truck welds in extending the frame bottom, the guide roll buckle is in the leading truck, the sliding tray has been seted up on leading truck inner wall surface, spacing roller slidable mounting is in the sliding tray, and just spacing roller is located directly over the guide roll.

Further, spraying mechanism is including a spraying frame and No. two spraying frames, a spraying frame is located between mounting bracket and the carriage, No. two spraying frames are located between carriage and the leading truck.

Further, the feed liquor incasement portion is inlayed and is had the antiseptic storage jar, antiseptic storage jar side surface inlays and has the pump drainage pump, pump drainage pump discharge opening inlays and has linking valve pipe, linking valve pipe one end communicates each other with a spraying frame and No. two spraying frame inlets respectively, antiseptic storage jar is inside to be inlayed and is had the feed liquor pipe, feed liquor pipe one end communicates each other with pump drainage pump inlet, the feed liquor pipe other end is inlayed and is had the filtration screen panel, it is located antiseptic storage jar inside bottom to filter the screen panel.

Further, an exhaust cavity is formed in the liquid supply box, the bottom end of the exhaust cavity is communicated with the top end of the drying box, a pumping fan is installed on a buckle in the exhaust cavity, a dust filtering net and a fiber adsorption net are installed on a buckle of an air inlet of the pumping fan, and an access cover is installed on a buckle of the top end of the liquid supply box.

Further, inside the inlaying of drying cabinet has the support material roller and arranges the material roller, the drying cabinet inner wall is inlayed and is had spacing, spacing inside slidable mounting has expansion roller and No. two expansion rollers, spacing lieing in support material roller and arranging between the material roller, the drying cabinet bottom is inlayed and is had thermal-insulated support, it inlays on the thermal-insulated support top has ceramic heating plate, inside the inlaying of drying cabinet has ceramic heating rod, ceramic heating rod is located directly over spacing.

Further, actuating mechanism is including protecting crust, driving motor, a transmission shaft, No. two transmission shafts and No. three transmission shafts are the L type and arrange, the protecting crust is installed in spraying case rear surface, and protecting crust one end is located the drying cabinet rear surface, driving motor, a transmission shaft, No. two transmission shafts, No. three transmission shafts are all installed in the protecting crust, the cover is detained between a transmission shaft and the driving motor drive shaft and is had a drive belt, the buckle is installed between a transmission shaft one end and the drive roller and is linked up the axle, the cover is detained between a transmission shaft and No. two transmission shafts and is installed No. two drive belts, the cover is detained between No. two transmission shafts and No. three transmission shafts and is installed No. three drive belts, No. three transmission shaft one end is connected with row material roller one end buckle.

Further, spraying case surface hinge installs the access door, access door surface mosaic has control panel, the access panel is installed to drying cabinet side surface eye-splice, base bottom surface mosaic has the gyro wheel, the inside bottom of spraying incasement is inlayed and is had the guide plate, the box is retrieved to the inside eye-splice of base, retrieve the box and communicate each other with the inside bottom of spraying incasement.

(III) advantageous effects

The invention has the following beneficial effects:

(1) this plant antibiotic antibacterial agent spraying device for printed fabric, dust removal mechanism through spraying incasement internally mounted, feeding mechanism, tension adjustment mechanism and spraying mechanism, the convenience removes dust to printed fabric, the pay-off, spraying and tension are adjusted, utilize the dust extraction motor on spraying incasement top surface, the dust absorption board that cooperation dust removal box inside buckle was installed carries out the adsorption type to printed fabric surface and removes dust, thereby avoid printed fabric surface to adhere to dust debris, the condition that influences the spraying effect appears, the air inlet duct of seting up through the base rear surface, make things convenient for inside external gas gets into the drying cabinet, improve the inside gas circulation effect of drying cabinet, thereby the drying efficiency of printed fabric has been improved.

(2) This plant antibiotic antiseptic spraying device for printed fabric, can promote the slider through the cylinder and remove along the groove of impressing, thereby adjust the interval between application roller and the drive roller, thereby exert pressure to printed fabric, thereby avoid at the pay-off in-process, the condition emergence of influence pay-off appears skidding in the drive roller, guide roll and spacing roller through in the leading truck, the convenience leads to printed fabric, make it get into in the drying cabinet, avoid printed fabric to cut the spraying incasement wall of rubbing, the condition that causes the surface fabric to damage takes place, and the setting of guide roll also makes things convenient for supplementary cooperation tension roller to adjust surface fabric tension.

(3) This plant antibiotic is antiseptic spraying device for printing fabric, No. one spraying frame and No. two spraying frames through setting up, conveniently carry out twice spraying to whole printing fabric, thereby improve the spraying effect of bacteriostat, after the surface fabric removes to accomplish the shower nozzle in the spraying frame, direction and extrusion through the tension roller, make partial bacteriostat get into inside the printing fabric, carry out the repeated spraying of bacteriostat through No. two spraying frames again, thereby improve the adsorption effect of printing fabric to bacteriostat, through the inside inlayed antiseptic storage jar of confession liquid incasement, conveniently store the bacteriostat, through the pump drainage pump of antiseptic storage jar side surface inlay, conveniently carry behind the bacteriostat pressure boost in No. one spraying frame and No. two spraying frames, filter the screen panel through the inside feed liquor pipe one end inlay of antiseptic storage jar, conveniently filter the bacteriostat that gets into in the pump drainage pump, thereby avoiding the situation that sundries are mixed in the bacteriostatic agent and enter the pump drainage pump, the first spraying frame and the second spraying frame to damage the whole spraying mechanism.

(4) The antibacterial agent spraying device for the plant antibacterial printed fabric is convenient for pumping and exhausting gas in the drying box through the pumping and exhausting fan which is installed in the buckle way in the exhaust cavity in the liquid supply box, thereby improving the circulation speed of high-temperature gas in the drying box so as to be convenient for drying the printed fabric, the dust filtering net and the fiber adsorption net are arranged through the air inlet buckle, so that the gas pumped and exhausted by the pumping and exhausting fan can be conveniently filtered, the secondary utilization of high-temperature gas is prevented from being influenced by impurities contained in the gas, a first expansion roller and a second expansion roller are conveniently arranged in the limiting frame in a sliding way through the material supporting roller and the material discharging roller which are embedded in the drying box, adjust the tension of stamp surface fabric, through the ceramic heating board of inlaying on thermal-insulated support top to and the inside ceramic heating stick of inlaying of drying cabinet, conveniently heat the inside gas temperature of drying cabinet, so that carry out drying process to the stamp surface fabric.

(5) The antibacterial agent spraying device for the plant antibacterial printed fabric can drive the first transmission shaft, the second transmission shaft and the third transmission shaft to rotate through the driving motor in the protective shell, so that the installation amount of a driving machine of the whole equipment is reduced, the driving mechanism of the whole equipment is conveniently maintained in a belt transmission mode, the interior of the spraying box is conveniently maintained through the access door which is installed on the surface hinge of the spraying box, the positions of cloth and a tension adjusting mechanism are conveniently adjusted when the cloth is sprayed for the first time, the whole equipment is conveniently regulated and controlled through the control panel which is embedded on the surface of the access door, the internal structure of the drying box is conveniently adjusted and maintained through the access panel which is installed on the surface of one side of the drying box in a buckling mode, the guide plate which is embedded on the bottom end inside the spraying box is convenient to guide the flow of redundant antibacterial agent which is sprayed and dripped, then the bacteriostatic agent is recovered and treated in a centralized way by utilizing a recovery box which is inserted and buckled in the base.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

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

FIG. 2 is a schematic diagram of the overall structure of the present invention in elevation;

FIG. 3 is an internal view of the overall structure of the present invention;

FIG. 4 is a rear elevational view of the overall construction of the present invention;

FIG. 5 is a side view of the overall structure of the present invention;

FIG. 6 is a schematic view of a feed mechanism of the present invention;

FIG. 7 is a schematic view of a tension adjustment mechanism of the present invention;

FIG. 8 is a schematic view of the internal structure of the liquid supply tank according to the present invention;

fig. 9 is a schematic view of the driving mechanism of the present invention.

In the figure, 1, a base; 2. a spraying box; 3. a drying oven; 4. a liquid supply tank; 5. an access door; 6. a control panel; 7. a dust extraction motor; 8. a material guiding cover; 9. a dust removal box; 10. a dust collection plate; 11. a cylinder; 12. a mounting frame; 13. a pressure applying groove; 14. a slider; 15. applying a pressure roller; 16. a drive roller; 17. a connecting shaft; 18. a carriage; 19. an electric push rod; 20. a chute; 21. a tension roller; 22. an extension frame; 23. a guide frame; 24. a sliding groove; 25. a limiting roller; 26. a guide roller; 27. a first spraying frame; 28. a second spraying frame; 29. a baffle; 30. a material supporting roller; 31. a limiting frame; 32. a first expanding roller; 33. a second expanding roller; 34. a thermally insulating support; 35. a ceramic heating plate; 36. a discharge roller; 37. a ceramic heating rod; 38. an exhaust chamber; 39. a pumping and exhausting fan; 40. a dust filter screen; 41. a fibrous absorbent web; 42. an antimicrobial storage tank; 43. a pump-out pump; 44. a liquid inlet pipe; 45. a filtering net cover; 46. connecting the valve pipe; 47. an access cover; 48. a protective shell; 49. a drive motor; 50. a first transmission shaft; 51. a second transmission shaft; 52. a third transmission shaft; 53. a first transmission belt; 54. a second transmission belt; 55. a third transmission belt; 56. a hot gas discharge pipe; 57. a recovery box; 58. a roller; 59. an access panel; 60. a feed inlet; 61. a discharge outlet; 62. an air inlet groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

Referring to fig. 1-6, an embodiment of the present invention provides a technical solution: an antibacterial agent spraying device for plant antibacterial printed fabric comprises a base 1, a spraying box 2, a drying box 3 and a liquid supply box 4, wherein the spraying box 2 is welded on the top end of the base 1, the drying box 3 is installed on one side of the spraying box 2 in a buckling manner, the drying box 3 is communicated with the inside of the spraying box 2, the liquid supply box 4 is installed on the top end of the drying box 3 through bolts, a dust removing mechanism, a feeding mechanism, a tension adjusting mechanism and a spraying mechanism are installed inside the spraying box 2, a driving mechanism is installed on the rear surface of the spraying box 2, the dust removing mechanism is located on one side of the feeding mechanism, the tension adjusting mechanism is located at the bottom end of the feeding mechanism, a feeding hole 60 is formed in the surface of one side of the spraying box 2, a material guide hole 61 is formed in the surface of one side of the drying box 3, and the dust removing mechanism comprises a material guide cover 8, a dust removing box 9, a dust collecting plate 10 and a dust collecting motor 7, the dust extraction motor 7 is embedded on the surface of the top end of the spraying box 2, the guide cover 8 is buckled in the spraying box 2, one end of the guide cover 8 is communicated with the feed inlet 60, the dust removal box 9 is welded on the other end of the guide cover 8, the dust removal box 9 is communicated with the interior of the guide cover 8, the dust collection plate 10 is buckled in the dust removal box 9, a dust extraction port of the dust extraction motor 7 is communicated with a dust discharge port of the dust collection plate 10, the rear surface of the base 1 is provided with an air inlet groove 62, the air inlet groove 62 is communicated with the interior of the drying box 3, a hot air discharge pipe 56 is embedded on the surface of one side of the drying box 3, the dust collection mechanism, the feeding mechanism, the tension adjustment mechanism and the spraying mechanism which are arranged in the spraying box 2 are used for conveniently removing dust, feeding, spraying and tension adjustment for the printed fabric, the dust extraction motor 7 on the surface of the top end of the spraying box 2 is matched with the dust collection plate 10 which is installed in the interior of the dust removal box 9 in a buckle for absorbing type dust removal, thereby avoid stamp surface fabric surface to adhere to dust debris, the condition that influences the spraying effect appears, and the air inlet duct 62 of seting up through base 1 rear surface makes things convenient for the external gas to get into drying cabinet 3 inside, improves the inside gas circulation effect of drying cabinet 3 to the drying efficiency of calico fabric has been improved.

Specifically, feeding mechanism is including cylinder 11, mounting bracket 12, drive roller 16 and the roller 15 of exerting pressure, 2 inner walls in spraying case are inlayed to cylinder 11, drive roller 16 installs in mounting bracket 12, the groove 13 of exerting pressure has been seted up on mounting bracket 12 surface, the inside slidable mounting in groove 13 of exerting pressure has slider 14, the roller 15 buckle of exerting pressure is installed in slider 14 side surface, the buckle is connected between 11 telescopic links of cylinder and the slider 14.

In this embodiment, the air cylinder 11 can push the sliding block 14 to move along the pressing groove 13, so as to adjust the distance between the pressing roller 15 and the driving roller 16, thereby pressing the printing fabric, and avoiding the occurrence of the situation that the feeding is influenced by the slippage of the driving roller 16 in the feeding process.

Specifically, tension adjustment mechanism is including carriage 18, electric putter 19, spout 20 and tension roller 21, carriage 18 inner wall is seted up to spout 20, electric putter 19 is inlayed in the inside one end of spout 20, the equal thread slipping in spout 20 in tension roller 21 both ends, the buckle is connected between 19 one end of electric putter and the 21 thread slipping frame of tension roller.

In this embodiment, through electric putter 19 in carriage 18 inner wall spout 20, can promote tension roller 21 and remove to utilize tension roller 21 and 16 intervals of drive roller to carry out tension to calico and adjust, thereby avoid calico fabric to appear the fold condition appearance that influences the spraying effect.

Specifically, tension adjustment mechanism is still including extending frame 22, leading truck 23, spacing roller 25 and guide roll 26, extend frame 22 and pass through the bolt and install in carriage 18 bottom, leading truck 23 welds in extending frame 22 bottom, guide roll 26 buckle in leading truck 23, sliding tray 24 has been seted up on the inner wall surface of leading truck 23, spacing roller 25 slidable mounting is in sliding tray 24, and just spacing roller 25 is located guide roll 26 directly over.

In the embodiment, the guide roll 26 and the limiting roll 25 in the guide frame 23 are used for conveniently guiding the printed fabric to enable the printed fabric to enter the drying box 3, so that the situation that the printed fabric scratches and rubs the inner wall of the spraying box 2 to cause fabric damage is avoided, and the guide roll 26 is also used for conveniently assisting the tension roll 21 to adjust the fabric tension.

Specifically, the spraying mechanism comprises a first spraying frame 27 and a second spraying frame 28, wherein the first spraying frame 27 is located between the mounting frame 12 and the sliding frame 18, and the second spraying frame 28 is located between the sliding frame 18 and the guide frame 23.

In this embodiment, through a spraying frame 27 and No. two spraying frames 28 that set up, conveniently carry out twice spraying to whole printed fabric to improve the spraying effect of bacteriostat, after the surface fabric removes to accomplishing the shower nozzle in a spraying frame 27, through the direction and the extrusion of tension roller 21, make inside partial bacteriostat gets into printed fabric, carry out the respraying of bacteriostat through No. two spraying frames 28 once more, thereby improve the absorption effect of printed fabric to the bacteriostat.

Specifically, 4 inside inlays of liquid supply case have antiseptic storage jar 42, antiseptic storage jar 42 side surface inlays and has pump drainage pump 43, pump drainage pump 43 liquid outlet inlays and has linking valve pipe 46, linking valve pipe 46 one end communicates each other with a spraying frame 27 and No. two spraying frame 28 inlets respectively, antiseptic storage jar 42 is inside to be inlayed and to have feed liquor pipe 44, feed liquor pipe 44 one end communicates each other with pump drainage pump 43 inlet, the feed liquor pipe 44 other end is inlayed and is had filter screen panel 45, filter screen panel 45 is located the inside bottom of antiseptic storage jar 42.

In this embodiment, through the inside inlayed antiseptic storage jar 42 of liquid supply tank 4, conveniently save the bacteriostat, through the inlayed pump drainage 43 of antiseptic storage jar 42 side surface, conveniently carry to spraying frame 27 and No. two spraying frame 28 after the bacteriostat pressure boost in, filter screen panel 45 through the inlayed filter screen panel of the inside feed liquor pipe 44 one end of antiseptic storage jar 42, conveniently filter the bacteriostat that gets into in pump drainage 43, thereby be mingled with in the bacteriostat and have debris to get into pump drainage 43, in spraying frame 27 and No. two spraying frame 28, the condition that causes the damage to whole spraying mechanism takes place.

Specifically, the inside exhaust chamber 38 of having seted up of liquid supply tank 4, exhaust chamber 38 bottom and the inside top of drying cabinet 3 communicate each other, the inside buckle in exhaust chamber 38 is installed and is taken out exhaust fan 39, dust screen 40 and fibre adsorption net 41 are installed to the inside buckle of taking out exhaust fan 39 air inlet, access cover 47 is installed to liquid supply tank 4 top buckle.

In this embodiment, through the pump drainage fan 39 of the inside buckle installation in the inside exhaust chamber 38 of liquid supply box 4, the convenience is taken out to 3 inside gases of drying cabinet and is arranged, thereby improve 3 inside high-temperature gas circulation speeds of drying cabinet, so that carry out drying process to the printed fabric, install dirt filtrating screen 40 and fibre adsorption screen 41 through the air inlet buckle, the convenience is filtered the gas of pump drainage fan 39 pump drainage, avoid containing debris in the gas, influence high-temperature gas's reutilization.

Specifically, 3 inside inlays of drying cabinet 3 have support material roller 30 and arrange material roller 36, 3 inner walls of drying cabinet are inlayed and are had spacing 31, spacing 31 inside slidable mounting has expansion roller 32 and No. two expansion rollers 33, spacing 31 is located support material roller 30 and arranges between material roller 36, 3 bottoms of drying cabinet are inlayed and are had thermal-insulated support 34, thermal-insulated support 34 tops are inlayed and are had ceramic heating plate 35, 3 inside inlays of drying cabinet has ceramic heating rod 37, ceramic heating rod 37 is located directly over spacing 31.

In this embodiment, through 3 inside inlayed support material rollers 30 of drying cabinet and row's material roller 36, conveniently cooperate the inside slidable mounting of spacing frame 31 to have expansion roller 32 and No. two expansion rollers 33, adjust the tension of stamp surface fabric, through the inlayed ceramic heating board 35 in 34 tops of thermal-insulated support to and 3 inside inlayed ceramic heating rod 37 of drying cabinet, conveniently heat 3 inside gas temperatures of drying cabinet, so that carry out drying process to the stamp surface fabric.

Specifically, actuating mechanism is including protecting shell 48, driving motor 49, a transmission shaft 50, No. two transmission shafts 51 and No. three transmission shafts 52 are the L type and arrange, protecting shell 48 is installed in spraying case 2 rear surface, and protecting shell 48 one end is located drying cabinet 3 rear surface, driving motor 49, a transmission shaft 50, No. two transmission shafts 51, No. three transmission shafts 52 are all installed in protecting shell 48, No. one drive belt 53 has been detained to the cover between a transmission shaft 50 and the driving motor 49 drive shaft, the buckle is installed between a transmission shaft 50 one end and drive roller 16 and is linked up axle 17, No. two drive belts 54 have been installed to the cover detained between a transmission shaft 50 and No. two transmission shafts 51, No. three drive belt 55 has been installed to the cover detained between No. two transmission shafts 51 and No. three transmission shafts 52, one end of the third transmission shaft 52 is connected with one end of the discharging roller 36 in a snap-fit manner.

In this embodiment, the driving motor 49 in the protective shell 48 can drive the first transmission shaft 50, the second transmission shaft 51 and the third transmission shaft 52 to rotate, so that the installation amount of the driving machine of the whole equipment is reduced, and the driving mechanism of the whole equipment is conveniently maintained in a belt type transmission mode.

Specifically, 2 surface hinge installations of spraying case have access door 5, 5 surface mosaic of access door has control panel 6, access panel 59 is installed to 3 side surface eye-splices of drying cabinet, 1 bottom surface mosaic of base has gyro wheel 58, the inside bottom of spraying case 2 is inlayed and is had guide plate 29, 1 inside eye-splices of base are installed and are retrieved box 57, retrieve box 57 and 2 inside bottoms of spraying case communicate each other.

In this embodiment, access door 5 through 2 surface hinge installations of spraying case, the convenience is overhauld and is maintained spraying case 2 inside, and also the convenience is when the first spraying cloth, adjust cloth and tension adjustment mechanism's position, control panel 6 through 5 surface inlays of access door, conveniently regulate and control whole equipment, access panel 59 through 3 side surface eye-splice installations of drying cabinet, the convenience is adjusted the maintenance to 3 inner structure of drying cabinet, through the guide plate 29 of 2 inside bottoms inlays of spraying case, conveniently advance the water conservancy diversion with the unnecessary bacteriostatic agent of spraying drippage, then utilize recovery box 57 of the inside eye-splice installation of base 1 to concentrate recovery processing bacteriostatic agent.

When the spraying box is used, a printed fabric enters the spraying box 2 through the feeding hole 60 and sequentially passes through the dust removing mechanism, the feeding mechanism, the tension adjusting mechanism and the spraying mechanism, and then enters the drying box 3, when the printed fabric enters the dust removing mechanism, the dust suction motor 7 on the top end surface of the spraying box 2 is utilized, the dust suction plate 10 installed inside the dust removing box 9 in a buckling mode is matched for carrying out adsorption type dust removal on the surface of the printed fabric, so that dust and sundries are prevented from being attached to the surface of the printed fabric, the spraying effect is prevented from being influenced, then the printed fabric is conveyed by the rotating driving roller 16, the printed fabric is conveyed by the driving roller 16, the sliding block 14 can be pushed to move along the pressure applying groove 13 through the air cylinder 11 according to the thickness of the fabric, the distance between the pressure applying roller 15 and the driving roller 16 is adjusted, the pressure is applied to the printed fabric, and the phenomenon that the feeding is prevented from being influenced by the slippage of the driving roller 16 in the feeding process, the tension roller 21 can be pushed to move through the electric push rod 19 in the sliding groove 20 in the inner wall of the sliding frame 18, so that tension adjustment is carried out on printed cloth by utilizing the distance between the tension roller 21 and the driving roller 16, then the printed cloth can be guided through the guide roller 26 and the limiting roller 25 in the guide frame 23 and enters the drying box 3, the guide roller 26 is also convenient to assist and cooperate with the tension roller 21 to adjust the tension of the cloth, in the moving process of the cloth, the pumping pump 43 embedded in the surface of one side of the antibacterial agent storage tank 42 pressurizes the antibacterial agent and then conveys the antibacterial agent into the first spraying frame 27 and the second spraying frame 28 to be sprayed, the spraying operation is carried out on the printed cloth, the first spraying frame 27 and the second spraying frame 28 are arranged, the whole printed cloth can be sprayed twice, after the spraying head is finished when the cloth is moved into the first spraying frame 27, the guiding and the extruding of the tension roller 21 are carried out, make inside partial bacteriostat gets into the printing surface fabric, carry out the compound spraying of bacteriostat through No. two spraying frame 28 once more, thereby improve the adsorption effect of printing surface fabric to the bacteriostat, after the surface fabric gets into the drying cabinet 3, through the inside inlayed material roller 30 of holding in the palm of drying cabinet 3 and row's material roller 36, conveniently cooperate the inside slidable mounting of spacing frame 31 to have expansion roller 32 and No. two expansion rollers 33, adjust the tension of printing surface fabric, through the inlayed ceramic heater board 35 in thermal-insulated support 34 top, and the inside inlayed ceramic heater stick 37 of drying cabinet 3, conveniently heat the inside gas temperature of drying cabinet 3, so as to carry out drying process to the printing surface fabric.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides an antibacterial agent spraying device for plant antibiotic printing surface fabric, includes base (1), spraying case (2), drying cabinet (3) and feed tank (4), its characterized in that: the spraying box (2) is welded on the top end of the base (1), the drying box (3) is installed on one side of the spraying box (2) in a buckling mode, the drying box (3) is communicated with the inside of the spraying box (2) mutually, the liquid supply box (4) is installed on the top end of the drying box (3) through bolts, the spraying box (2) is internally provided with a dust removal mechanism, a feeding mechanism, a tension adjusting mechanism and a spraying mechanism, the rear surface of the spraying box (2) is provided with a driving mechanism, the dust removal mechanism is located on one side of the feeding mechanism, the tension adjusting mechanism is located at the bottom end of the feeding mechanism, a feeding port (60) is formed in the surface of one side of the spraying box (2), a discharging port (61) is formed in the surface of one side of the drying box (3), the dust removal mechanism comprises a guide cover (8), a dust removal box (9), a dust collection plate (10) and a dust collection motor (7), and the dust collection motor (7) is embedded in the surface of the top end of the spraying box (2), guide cover (8) buckle is in spraying case (2), and guide cover (8) one end and feed inlet (60) communicate each other, dust removal box (9) weld in guide cover (8) other end, and dust removal box (9) and guide cover (8) inside communicate each other, dust absorption plate (10) buckle is inside dust removal box (9), take out dirt motor (7) and take out dirt mouth and dust absorption plate (10) dust exhaust mouth and communicate each other, air inlet duct (62) have been seted up to base (1) rear surface, air inlet duct (62) and inside communicate each other of drying cabinet (3), surface mosaic has steam exhaust pipe (56) on one side of drying cabinet (3).

2. The antibacterial agent spraying device for the plant antibacterial printed fabric according to claim 1, characterized in that: feeding mechanism is including cylinder (11), mounting bracket (12), drive roller (16) and application of pressure roller (15), inlay in spraying case (2) inner wall in cylinder (11), install in mounting bracket (12) drive roller (16), application of pressure groove (13) have been seted up on mounting bracket (12) surface, application of pressure groove (13) inside slidable mounting has slider (14), application of pressure roller (15) buckle is installed in slider (14) a side surface, the buckle is connected between cylinder (11) telescopic link and slider (14).

3. The antibacterial agent spraying device for the plant antibacterial printed fabric according to claim 1, characterized in that: tension adjustment mechanism is including carriage (18), electric putter (19), spout (20) and tension roller (21), carriage (18) inner wall is seted up in spout (20), electric putter (19) are inlayed in the inside one end of spout (20), tension roller (21) both ends are all the thread slipping in spout (20), electric putter (19) one end and tension roller (21) thread slipping frame between the buckle be connected.

4. The antibacterial agent spraying device for the plant antibacterial printed fabric according to claim 1, characterized in that: tension adjustment mechanism is still including extending frame (22), leading truck (23), spacing roller (25) and guide roll (26), extend frame (22) and pass through the bolt and install in carriage (18) bottom, leading truck (23) welds in extending frame (22) bottom, guide roll (26) buckle in leading truck (23), sliding tray (24) have been seted up on leading truck (23) inner wall surface, spacing roller (25) slidable mounting is in sliding tray (24), and just spacing roller (25) are located directly over guide roll (26).

5. The antibacterial agent spraying device for the plant antibacterial printed fabric according to claim 1, characterized in that: the spraying mechanism comprises a first spraying frame (27) and a second spraying frame (28), wherein the first spraying frame (27) is located between the mounting frame (12) and the sliding frame (18), and the second spraying frame (28) is located between the sliding frame (18) and the guide frame (23).

6. The antibacterial agent spraying device for the plant antibacterial printed fabric according to claim 1, characterized in that: supply liquid case (4) inside mosaic to have antiseptic storage jar (42), antiseptic storage jar (42) one side surface mosaic has pump drainage pump (43), pump drainage pump (43) liquid outlet is inlayed and is had linking valve pipe (46), linking valve pipe (46) one end communicates each other with a spraying frame (27) and No. two spraying frame (28) inlets respectively, antiseptic storage jar (42) inside is inlayed and is had feed liquor pipe (44), feed liquor pipe (44) one end communicates each other with pump drainage pump (43) inlet, feed liquor pipe (44) other end is inlayed and is had filter screen panel (45), filter screen panel (45) are located antiseptic storage jar (42) inside bottom.

7. The antibacterial agent spraying device for the plant antibacterial printed fabric according to claim 1, characterized in that: supply liquid case (4) inside exhaust chamber (38) of having seted up, exhaust chamber (38) bottom communicates with drying cabinet (3) inside top each other, exhaust chamber (38) inside buckle is installed and is taken out exhaust fan (39), dust screen (40) and fibre absorption net (41) are installed to pump out exhaust fan (39) air inlet buckle, maintenance lid (47) are installed to supply liquid case (4) top buckle.

8. The antibacterial agent spraying device for the plant antibacterial printed fabric according to claim 1, characterized in that: drying cabinet (3) inside is inlayed and is had support material roller (30) and row's material roller (36), drying cabinet (3) inner wall is inlayed and is had spacing (31), spacing (31) inside slidable mounting has expansion roller (32) and No. two expansion rollers (33), spacing (31) are located support material roller (30) and are arranged between material roller (36), drying cabinet (3) bottom is inlayed and is had thermal-insulated support (34), thermal-insulated support (34) top is inlayed and is had ceramic heating board (35), drying cabinet (3) inside is inlayed and is had ceramic heating rod (37), ceramic heating rod (37) are located spacing (31) directly over.

9. The antibacterial agent spraying device for the plant antibacterial printed fabric according to claim 1, characterized in that: the driving mechanism comprises a protective shell (48), a driving motor (49), a first transmission shaft (50), a second transmission shaft (51) and a third transmission shaft (52), wherein the first transmission shaft (50), the second transmission shaft (51) and the third transmission shaft (52) are arranged in an L shape, the protective shell (48) is installed on the rear surface of the spraying box (2), one end of the protective shell (48) is located on the rear surface of the drying box (3), the driving motor (49), the first transmission shaft (50), the second transmission shaft (51) and the third transmission shaft (52) are installed in the protective shell (48), a first transmission belt (53) is sleeved and buckled between the first transmission shaft (50) and the driving shaft of the driving motor (49), a linking shaft (17) is installed between one end of the first transmission shaft (50) and the driving roller (16), a second transmission belt (54) is installed between the first transmission shaft (50) and the second transmission shaft (51), no. three drive belts (55) are installed to the cover knot between No. two transmission shafts (51) and No. three transmission shafts (52), No. three transmission shafts (52) one end is connected with row material roller (36) one end buckle.

10. The antibacterial agent spraying device for the plant antibacterial printed fabric according to claim 1, characterized in that: spraying case (2) surface hinge installs access door (5), access door (5) surface mosaic has control panel (6), access panel (59) are installed to drying cabinet (3) a side surface eye-splice, base (1) bottom surface mosaic has gyro wheel (58), the inside bottom of spraying case (2) is inlayed and is had guide plate (29), base (1) inside eye-splice is installed and is retrieved box (57), retrieve box (57) and the inside bottom of spraying case (2) and communicate each other.

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