Disclosure of Invention
The invention provides ironing equipment of lady knitted yoga trousers with knee protection function, aiming at overcoming the defects of the prior art.
In order to achieve the purpose, the invention adopts the following technical scheme: a ironing device of lady knitted yoga trousers with knee protection function comprises a main body, a steam engine arranged on the main body, an air cylinder arranged in the main body, a fixing device arranged on the air cylinder, an ironing device arranged below the air cylinder and a clamping block arranged on the inner wall of the main body; the fixing device comprises a U-shaped channel arranged in the main air cylinder, a piston block arranged in the U-shaped channel, a pressing block arranged on the piston block, a piston spring arranged on the piston block, a fixing ring arranged on the air cylinder and a pressing mechanism arranged on the fixing ring; the longitudinal section of the U-shaped channel is U-shaped, and one end of the U-shaped channel is connected with the ventilation cylinder; the piston block is movably embedded in the U-shaped channel; the piston spring is connected with the piston block and the inner wall of the U-shaped channel; the pressing block is fixedly connected with the piston block and movably embedded at the bottom of the ventilating cylinder.
Before the equipment is started, the underpants of the finished yoga trousers are firstly hooped on the fixing rings to be fixed, and then the trouser legs are clamped by the clamping blocks; starting the steam engine to generate steam, wherein the steam can enter the U-shaped channel; the air pressure generated at the moment pushes the piston block to move, so that the pressing block is driven to move and start; butting with a pressing mechanism, and pressing the underpants; the underpants are further clamped while being pressed; in addition, the air pressure generated by the steam drives the ironing device to start, the trouser legs are exhausted, and the trouser heads are blown and expanded by the steam; thereby ironing the trouser legs; the arrangement of the vent cylinder enables the water vapor to be stored and accumulated, ensures that each component can be driven by pressure, and improves the stability; the arrangement of the U-shaped channel realizes that the water vapor can drive the piston block to move when the water vapor is led to each component, and ensures that the pressing mechanism is started before the ironing device; thereby the underpants can keep a stable state; the pressing mechanism can be driven through the change of air pressure by arranging the piston block, so that the stability is improved; the fixing of the underpants is realized through the arrangement of the fixing ring, so that the underpants are prevented from sliding off during ironing, and the stability is improved; on the other hand, a working platform is improved for pressing, and the pressing effect is improved; the underpants are pressed by the pressing block, so that the underpants are more stable; on the other hand, the pressing effect is improved.
The pressing mechanism comprises an air outlet groove arranged on the outer ring of the fixed ring, a plugging block arranged on the air outlet groove, a fixed block arranged in front of the plugging block, an air vent arranged on the fixed block, a plugging spring arranged on the plugging block, and a first air outlet assembly arranged on the inner ring of the fixed ring; the four air outlet grooves are uniformly arranged along the circumferential direction of the fixed ring; the cross section of the blocking block is arc-shaped, and the size of the blocking block is consistent with that of the air outlet groove; the cross section of the fixed block is in the shape of an arc, and the size of the fixed block is consistent with that of the blocking block; the side edge of the fixed block is provided with an arc angle; the plurality of air injection holes are uniformly distributed along the surface of the fixed block, and arc angles are arranged on the wall of each air injection hole; the blocking spring is connected with the blocking block and the inner ring of the fixing ring.
The underpants are wrapped on the fixed block, and when the pressing block is driven to move under the action of air pressure, the underpants are firstly butted with the fixed block; the fixing block is pushed to start moving, and meanwhile, the blocking block is driven to move, so that the first air outlet assembly is driven to be opened; at the moment, the water vapor in the fixed ring is sprayed out of the air storage tank, is sprayed to the underpants through the air injection holes, and then starts to press the underpants by combining with the pressing block; the fixing of the underpants is realized on one hand through the arrangement of the fixing blocks, so that the yoga trousers can be stably fixed on equipment, and the convenience of ironing is improved; on the other hand, the trousers can be combined with the pressing block to press and iron the underpants, so that the working effect is improved; the blocking block is used for preventing the equipment from being influenced by air pressure in the fixed ring during operation, so that the equipment can be exchanged without stopping the machine, and the ironing efficiency is improved; the arrangement of the air injection holes enables the water vapor to be uniformly sprayed on the underpants, and the pressing effect is improved.
The first air outlet assembly comprises a first air outlet hole arranged on the inner ring of the fixing ring, a plug plate arranged on the first air outlet hole, a second spring arranged on the plug plate, and a pressing rod arranged on the blocking block; the number of the first air outlet holes is four, and the first air outlet holes are uniformly arranged along the circumferential direction of the fixing ring; the plug plate is movably embedded on the first air outlet hole, and the diameter of the plug plate is larger than that of the first air outlet hole; the second spring is connected with the first air outlet hole and the plug plate; the diameter of the pressing stick is one third of that of the first air outlet hole, and the pressing stick can be pressed against the plug plate.
When the blocking block moves, the pressing rod is driven to start moving; then the pressing rod is pushed to jack the plug plate; at the moment, the first air outlet hole is not blocked, so that the air in the fixed ring leaks; the plug plate is arranged to block the first air outlet, so that the phenomenon that the underpants are blown before being further pressed to influence the pressing effect is avoided; make the underpants can be pressed and scalded after being fixed through the setting of this subassembly, improved the effect that presses and scalded, further improved the quality of yoga trousers.
The ironing device comprises a second air outlet assembly arranged at the bottom of the fixing ring, two telescopic cylinders arranged at the top of the fixing ring, ironing holes arranged on the telescopic cylinders, a telescopic mechanism arranged in the telescopic cylinders and a telescopic spring arranged on the telescopic cylinders; the two telescopic cylinders are arranged on the fixing ring in a telescopic manner; the ironing holes are uniformly distributed on the surface of the telescopic cylinder; the telescopic spring is arranged on the inner wall of the telescopic cylinder and used for keeping tension.
When the fixed block moves, the second air outlet assembly is driven to be opened; further leading the water vapor in the fixed ring to enter the telescopic barrel; then the telescopic mechanism is driven to start through air pressure; thereby driving the telescopic cylinder to extend, and enabling the telescopic cylinder to extend into the trouser legs; further ironing the trouser legs in an air blowing mode; the arrangement of the telescopic cylinder realizes that the water vapor can be uniformly sprayed on the inner side of the trouser legs, thereby improving the ironing effect; the arrangement of the ironing holes realizes the spraying of water vapor, so that the trouser legs expand rapidly, and the ironing effect is improved; on the other hand, the damage to the fabric can be reduced, and the quality of the yoga trousers is improved; the telescopic cylinder keeps an extension state at any time through the arrangement of the telescopic spring, the telescopic cylinder can be ensured to enter the trouser cylinder in a quasi-working state, and the stability is improved.
The second air outlet assembly comprises a second air outlet hole arranged at the bottom of the fixing ring, a second plug plate arranged on the second air outlet hole, a vent ring arranged on the second plug plate, a third spring arranged on the second plug plate and a driving block arranged on the vent ring; the second air outlet is communicated with the telescopic cylinder; the second plug plate is movably embedded on the second air outlet hole; the vent ring is movably embedded in the fixing ring, and the inner diameter of the vent ring is the same as the diameter of the second air outlet hole; the driving block is movably embedded in the fixed ring and can be propped against the fixed block; the third spring is connected with the bottom of the fixing ring and the second plug plate.
When the fixed block moves, the fixed block firstly presses against the driving block to move; at the moment, the driving ventilation ring starts to move, so that the second plug plate is driven to be far away from the second air outlet hole; then the ventilation ring is communicated with the second air outlet, and at the moment, water vapor enters the telescopic cylinder from the second air outlet; the telescopic cylinder can be synchronously driven to stretch and retract through the movement of the fixing block through the arrangement of the assembly, so that the working efficiency is improved on the one hand; the other side can make the pressure scald time reduce, prevents to press to scald the time overlength and leads to damaging the surface fabric.
The telescopic mechanism comprises an inflator pump arranged in the telescopic cylinder, a one-way valve arranged at the bottom of the inflator pump, a driving assembly arranged in the inflator pump and a spring arranged at the bottom of the telescopic cylinder; the inflator is communicated with the second air outlet; one end of the clockwork spring is connected with the bottom of the telescopic cylinder, and the other end of the clockwork spring is connected with the driving assembly.
When the second air outlet is opened, firstly, water vapor can enter the inflator pump, so that the driving assembly is driven to start; starting a spring through a driving assembly, and then starting the extension barrel to extend; when the telescopic cylinder reaches the limit, the one-way valve is driven to start due to the relation of air pressure, and the air in the inflator is discharged into the telescopic cylinder; the storage of the water vapor is realized through the arrangement of the inflator pump, on one hand, the pressure can be stored, and the spraying effect is improved; on the other hand, the utility model can be separated from the telescopic cylinder, which firstly reduces a large amount of water in the water vapor, prevents the loss caused by the face to face due to excessive water, and improves the quality of the yoga trousers; the fixing of the telescopic cylinder is realized through the arrangement of the spring, and the telescopic cylinder is prevented from being mistakenly started under the influence of the telescopic spring to damage trousers.
The driving assembly comprises a screw rod arranged in the inflator pump, a rotating plate arranged on the screw rod, an inclined groove arranged on the rotating plate, a driving plate arranged on the rotating plate and a driving spring arranged on the driving plate; the rotating plate is rotatably matched with the screw rod; the chutes are uniformly arranged along the circumferential direction of the rotating plate; the driving plate is arranged on the rotating plate and can be embedded on the screw rod in a vertically moving mode.
When gas enters the inflator, the driving plate is driven to move under the influence of the air pressure; at the moment, the driving plate moves until the rotating plate rotates on the screw rod; at the moment, the clockwork spring starts to unlock, and the telescopic cylinder starts to act until the rotating plate rotates to the bottom; the winding and unwinding of the spring can be realized through the rotation of the rotating plate through the arrangement of the rotating plate, so that the telescopic cylinder is driven to move; on one hand, the arrangement of the chute enables the water vapor to filter a large amount of moisture through the chute; on the other hand, water vapor can enter the one-way valve, so that the stability is improved; the pneumatic driving rotating plate is arranged in the driving ampere-fold, so that the pneumatic driving rotating plate can move, and the stability is improved; the telescopic cylinder is driven to move by the equipment in an air pressure mode through the arrangement of the mechanism, and ironing is started; the use of the lubricant is reduced, and the influence of the lubricant on the yoga trousers is prevented; on the other hand, the trouser legs are ironed in a blowing mode, so that the damage of the cloth can be reduced, and the quality is improved.
The clamping block comprises a moving groove arranged on the inner wall of the main body, a slot arranged on the moving groove, a moving block arranged on the moving groove, a friction block arranged at the bottom of the moving block, a fourth spring arranged on the friction block, a spring piece arranged on the moving block and a clamp arranged on the spring piece; the open groove is formed in the inner side of the movable groove; the moving block is movably embedded in the moving groove; the friction block is movably embedded in the movable block and can be embedded in the groove; the fourth spring is connected with the friction block and the moving block; the spring piece is connected with the clamp and the moving block.
Before the equipment is started, the trouser legs of the yoga trousers are clamped through the clamps, and then the moving block is slid according to the length of the trousers, so that the yoga trousers keep a proper position; the friction force is increased by arranging the friction block, so that the moving block can be stabilized at any point at any time; due to the arrangement of the spring pieces, changes caused by deformation of the trouser legs can be used during ironing, so that the applicability is improved; set up through the clip on the one hand and make trousers can stabilize on equipment, on the other hand can reduce the gas leakage condition of bottom of a trouser leg, improves the effect of whole boiling hot.
In conclusion, the invention has the following advantages: the equipment is firstly fixed on a fixed block according to the tension of a yoga trouser opening, and then trouser legs are fixed through a clip; the fabric can be prevented from slipping off during ironing and can be protected from being damaged; then, the fixing block is driven to move by air pressure generated by the steam engine to press the underpants, and meanwhile, gas is generated to press and iron the underpants; the treatment effect on the trousers is improved; the side length of the telescopic cylinder is further made to adapt to the length of the trouser cylinder through air pressure, so that air can reach any point of the trouser cylinder; the ironing effect is further improved; in addition, the fabric at the knee part can be protected from being damaged by extrusion due to ironing in a manner of inflating the trouser legs, and the quality of the product is improved.
Detailed Description
As shown in fig. 1-14, a ironing device for lady yoga pants with knee protection function comprises a main body 1, a steamer 2, a ventilation cylinder 3, a fixing device 4, an ironing device 5 and a clamping block 6; the fixing device 4 comprises a U-shaped channel 41, a piston block 42, a pressing block 43, a piston spring 44, a fixing ring 45 and a pressing mechanism 46; the steam engine 2 is arranged above the main body 1, and the steam engine 2 is directly purchased from the market; the breather cylinder 3 is arranged in the main body 1 and communicated with the steam engine 2; the fixing device 4 is arranged in the breather cylinder 3; the ironing device 5 is arranged below the ventilating cylinder 3; the clamping blocks 6 are provided with 2 groups which are respectively arranged on two side walls of the bottom of the main body 1; the longitudinal section of the U-shaped channel 41 is U-shaped, the U-shaped channel is arranged in the air cylinder 3, and one end of the U-shaped channel is connected with the air cylinder 3; the piston block 42 is movably embedded in the U-shaped channel 41; the piston spring 44 is connected with the piston block 42 and the inner wall of the U-shaped channel 41; the pressing block 43 is fixedly connected with the piston block 42 and movably embedded at the bottom of the air cylinder 3; the fixing ring 45 is arranged at the lower end of the air cylinder 3; the pressing mechanism 46 is arranged on the fixing ring 45.
As shown in fig. 7, the pressing mechanism 46 includes an air outlet slot 461, a blocking block 462, a fixing block 463, an air injection hole 464, a blocking spring 465 and a first air outlet assembly 7; 4 air outlet grooves 461 are uniformly arranged along the circumferential direction of the fixing ring 45; the cross section of the blocking block 462 is arc-shaped, and the size of the blocking block 462 is consistent with that of the air outlet slot 461; the blocking block 462 is movably embedded in the fixing ring 45, the cross section of the fixing block 463 is arc-shaped, and the size of the fixing block 463 is consistent with that of the blocking block 462; the side edge of the fixed block 463 is provided with an arc angle; a plurality of air injection holes 464 are uniformly arranged along the surface of the fixing block 463, and the hole wall of each air injection hole 464 is provided with an arc angle; the blocking spring 465 connects the blocking block 462 and the inner ring of the fixed ring 45; the first air outlet assembly 7 is arranged on the fixing ring 45.
As shown in fig. 7 and 9-10, the first air outlet assembly 7 includes a first air outlet hole 71, a plug plate 72, a second spring 73, and a pressing roller 74; the number of the first air outlet holes 71 is 4, and the first air outlet holes are uniformly arranged along the circumferential direction of the fixing ring 45; the plug plate 72 is movably embedded in the first air outlet hole 71, and the diameter of the plug plate 72 is larger than that of the first air outlet hole 71; the second spring 73 is connected with the first air outlet hole 71 and the plug plate 72; the diameter of the pressing roller 74 is one third of the diameter of the first air outlet hole 71, and the pressing roller 74 can abut against the plug plate 72.
As shown in fig. 6, the ironing device 5 comprises a second air outlet assembly 51, a telescopic cylinder 52, an ironing hole 53, a telescopic mechanism 54 and a telescopic spring 55; the bottom of the fixing ring 45 is located at the last month of the second air outlet assembly 51; the telescopic cylinder 52 is provided with 2 groups and is arranged on the fixed ring 45 in a telescopic way; the ironing holes 53 are uniformly arranged on the surface of the telescopic cylinder 52; the telescopic spring 55 is arranged on the inner wall of the telescopic cylinder 52 and used for keeping tension; the telescoping mechanism 54 is disposed within the telescoping cylinder 52.
As shown in fig. 11, the second air outlet assembly 51 includes a second air outlet 511 disposed at the bottom of the fixing ring 45, a second plug plate 512 disposed on the second air outlet 511, a vent ring 513 disposed on the second plug plate 512, a third spring 514 disposed on the second plug plate 512, and a driving block 515; the second air outlet 511 is communicated with the telescopic cylinder 52; the second plug plate 512 is movably embedded in the second air outlet 511; the vent ring 513 is movably embedded in the fixing ring 45, and the inner diameter of the vent ring 513 is the same as the diameter of the second air outlet 511; the driving block 515 is movably embedded in the fixing ring 45 and can abut against the fixing block 463; the third spring 514 connects the bottom of the fixed ring 45 and the second plug plate 512.
As shown in fig. 6 and 12-13, the telescopic mechanism 54 comprises an inflator 541, a one-way valve 542, a driving assembly 8 and a spring 543; the inflator 541 is communicated with the second air outlet 511; the one-way valve 542 is arranged at the bottom of the inflator 541; one end of the spring 543 is connected with the bottom of the telescopic cylinder 52, and the other end is connected with the driving component 8; the driving assembly 8 is disposed in the inflator 541.
As shown in fig. 12, the driving assembly 8 includes a screw 81, a rotating plate 82, a chute 83, a driving plate 84, a driving spring 85; the screw rod 81 is arranged inside the inflator 541; the rotating plate 82 is rotatably matched with the screw rod 81; the plurality of inclined grooves 83 are uniformly arranged along the circumferential direction of the rotating plate 83; the driving plate 84 is arranged on the rotating plate 83, and the driving plate 84 can be vertically moved and embedded on the screw rod 81; the driving spring 85 is connected with the driving plate 84 and the top of the inflator 541.
As shown in fig. 2 and 14, the clamping block 6 comprises a moving groove 61, a slot 62, a moving block 63, a friction block 64, a fourth spring 65, a spring plate 66 and a clamp 67; the moving grooves 61 are arranged on two inner side walls of the main body 1; the open groove 62 is formed inside the moving groove 61; the moving block 63 is movably embedded in the moving groove 61; the friction block 64 is movably embedded on the moving block 63 and can be embedded with the slot 62; the fourth spring 65 is connected with the friction block 64 and the moving block 63; the spring piece 66 connects the clamp 67 and the moving block 63; the clip 67 is provided on the spring plate 66.
The specific working process is as follows: before the equipment is started, firstly hooping the yoga trousers which are finished on a fixing block 463, then clamping the trouser legs of the yoga trousers through a clamp 67, and then sliding a moving block 63 according to the length of the trousers so as to enable the yoga trousers to keep a proper position; starting the steam engine 2, the water vapor enters the U-shaped channel 41; the air pressure generated at this time pushes the piston block 42 to move, so as to drive the pressing block 43 to move; then the pressing block 43 starts to abut against the fixing block 463 to drive the fixing block 463 to start moving; at the same time, the blocking block 462 is driven to move, which will drive the pressing roller 74 to start moving; then the pressing roller 74 starts to jack the plug plate 72; the first outlet hole 71 is unblocked; at the moment, the water vapor in the fixing ring 45 is sprayed out from the air outlet slot 461, is sprayed to the underpants through the air spraying holes 464, and then is combined with the pressing block 43 to press the underpants; meanwhile, when the fixed block 463 moves, the driving block 515 is pressed to move; at this point, the drive vent ring 513 begins to move, thereby driving the second plug 512 away from the second outlet aperture; then the air vent ring joint 513 is led to pass through the second air outlet 511, and at the moment, the water vapor enters the inflator 541 from the second air outlet 511; first, the movement of the drive plate 84 is driven under the influence of air pressure; at this time, the driving plate 84 moves until the rotating plate 82 rotates on the lead screw 81; at this time, the clockwork spring 543 starts to unlock, and the telescopic cylinder 52 starts to operate until the rotating plate 82 rotates to the bottom; at this time, the spring 543 starts to start and loses tension; further driving the telescopic cylinder 52 to extend, so that the telescopic cylinder 52 extends into the trouser legs; at this time, under the influence of continuous pressurization of air pressure, the check valve 542 is opened, and water vapor is blown to the telescopic cylinder 52 and then blown to the trouser legs for ironing.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.