Doubling air splicer with hairbrush in track
Technical Field
The invention relates to the technical field of air splicer equipment, in particular to a doubling air splicer with a track containing a hairbrush.
Background
The textile mill refers to a workshop for manufacturing production data or living data by using a machine. The air twister is a place for processing and manufacturing textile raw materials, mainly in the textile industry, and is often used in the textile industry, so that the aim of conveniently operating the machine is fulfilled.
However, the existing air splicer is blocked by the accumulated flowers in a clothing factory or a textile factory in the track when in use, so that the air splicer cannot move due to the accumulated flowers and the blockage, and extra time is spent for clearing the accumulated flowers and the blockage, so that the working efficiency is reduced, and the service life of the air splicer is shortened because the existing air splicer moves in the slide rail and is easy to damage the pulley.
Therefore, how to design a doubling air splicer with a brush in the track becomes a problem to be solved currently.
Disclosure of Invention
The invention aims to provide a doubling air splicer with a track containing a hairbrush, which solves the problems that the air splicer cannot move due to accumulated flowers and blockage, the working efficiency is reduced and the service life of the air splicer is short in the prior art.
In order to achieve the purpose, the invention provides the following technical scheme: a doubling air splicer with a hairbrush in a track comprises a sliding rail guard plate, wherein a sliding rail is arranged on the inner side of the sliding rail, the inner side of the sliding rail is connected with an air splicer through a sliding bearing, an operating panel and a speed adjusting groove are arranged on the front side of the air splicer, a manual-automatic switching button is arranged on the front side of the operating panel, a speed adjusting rod is arranged on the inner side of the speed adjusting groove, a hairbrush rod, an infrared fixing plate and a touch-proof supporting column are arranged on the two sides of the air splicer, a hairbrush base is arranged at one end of the hairbrush rod, the hairbrush is arranged on the side face of the hairbrush base, an infrared detector is arranged on the side face of the infrared fixing plate, a touch-proof plate is arranged at one end of the touch-proof supporting column, a handle connecting rod is arranged at the top of, the inside of air splicer is connected with the data wire through the infrared ray fixed plate, the one end of data wire is connected with the reversal controller, the inside of reversal controller is provided with handles the chip, the bottom mounting of reversal controller has hydro-cylinder formula engine, the top of hydro-cylinder formula engine is connected with hydro-cylinder engine dead lever, one side of hydro-cylinder formula engine is provided with the engine shaft, the one end of engine shaft is connected with the engine gear, the bottom joint of engine gear has the switching shaft gear, the bottom of switching shaft gear is provided with the switching shaft, the bottom of switching shaft is connected with the intercommunication axle, slide bearing's inboard is provided with the slide bearing protective case, the top of slide bearing protective case is provided with the oiling pipe, the top of oiling pipe is connected with lubricating oil case.
Furthermore, the inner side of the slide rail protection plate is inwards concave, the slide rail protection plate is inwards concave in a semicircular shape, and the concave radius of the slide rail protection plate is matched with the radius of the sliding bearing.
Furthermore, the speed adjusting rod is a movable rod, the movable distance of the speed adjusting rod is consistent with the length of the speed adjusting groove in the groove, and meanwhile, the speed adjusting rod is movably connected with the speed adjusting groove.
Furthermore, the brush rod, the air splicer and the slide rail guard plate form a triangle, the brush rod is a telescopic rod, and the telescopic rod is fixedly connected with the air splicer.
Furthermore, the brush is composed of a plurality of elastic filaments which are arranged in a staggered mode, and the filaments on the brush are embedded into the side face of the brush base.
Furthermore, the inversion controller comprises a processing chip arranged in the inversion controller and a data wire arranged on the side surface of the inversion controller, and one end of the data wire is embedded in the side surface of the inversion controller.
Furthermore, the oiling pipe is sixty degrees angle with the bottom of lubricating oil case, just the oiling pipe runs through in the bottom of lubricating oil case.
Further, the rubber sleeve is formed by artifical rubber processing, just the surface of rubber sleeve is provided with many draw-in grooves, simultaneously the rubber sleeve depends on the surface at the handle.
Compared with the prior art, the invention has the beneficial effects that: the doubling air splicer with the brush in the track is improved and added on the basis of the original air splicer, and is provided with the brush and an infrared detector, when in use, an oil cylinder type engine drives a conversion shaft gear to rotate through an engine rotating shaft and the engine gear, then the conversion shaft gear drives a communicating shaft to rotate through a conversion shaft, and further drives a sliding bearing to move back and forth, so that the air splicer starts to operate, and the brush is fixed on two sides of the air splicer through a brush rod, therefore, the brush can clean a sliding rail when the air splicer operates, and further clear accumulated flowers in the sliding rail, thus the air splicer can be prevented from being incapable of moving due to the blockage of the accumulated flowers, the infrared detector can emit infrared rays, and the infrared detector can feed back data into a processing chip in a reverse rotation controller through a data lead when the end of the air splicer is reached, and then the reverse controller control cylinder type engine reverse operation, and then reach the effect of automatic operation, be provided with and prevent the collision board, when using manual control, if appear forgetting to carry out reverse operation under the circumstances carelessly, prevent that the collision board can collide the barrier of end earlier, and then alleviate the collision damage of air splicer, thereby prolong the life of air splicer, be provided with lubricating oil case and notes oil pipe, at the during operation, notes oil pipe can pour into the lubricating oil in the lubricating oil case into the slide rail, and then make the frictional force between slide rail and the slide bearing diminish, and then improve the life of air splicer once more, and such clearance mode does not need the manual work to clear up, and then saved the labour, improve the work efficiency of factory building.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a left side view of the overall construction of the present invention;
fig. 3 is a schematic cross-sectional structure of the air splicer of the present invention.
In the figure: 1. slide rail backplate, 2, air splicer, 201, hydro-cylinder engine dead lever, 202, reverse controller, 203, processing chip, 204, data wire, 205, hydro-cylinder engine, 206, engine shaft, 207, engine gear, 208, conversion shaft gear, 209, conversion shaft, 2010, intercommunication axle, 2011, slide bearing protecting shell, 2012, notes oil pipe, 2013, lubricating oil case, 3, operating panel, 4, hand automatic switch button, 5, speed adjustment tank, 6, speed governing pole, 7, brush pole, 8, slide rail, 9, infrared ray fixed plate, 10, infrared detector, 11, slide bearing, 12, brush base, 13, brush, 14, prevent touching the support column, 15, the version, 16, handle connecting rod, 17, handle, 18, rubber sleeve.
The electronic devices which can be purchased are used in the invention as follows:
the types of the cylinder type engine are as follows: MZ175 (Brand: Lord Weixi)
The model of the reverse controller is as follows: liberation of one steam (Brand: liberation)
The infrared detector has the following types: THZ (Brand: MEAN WELL/Ming latitude)
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.
Referring to fig. 1-3, the present invention provides a technical solution: a doubling air splicer with a hairbrush in a track comprises a slide rail guard plate 1, an air splicer 2, an oil cylinder engine fixing rod 201, a reverse controller 202, a processing chip 203, a data wire 204, an oil cylinder type engine 205, an engine rotating shaft 206, an engine gear 207, a conversion shaft gear 208, a conversion shaft 209, a communication shaft 2010, a sliding bearing guard 2011, an oil injection pipe 2012, a lubricating oil storage box 2013, an operation panel 3, a manual and automatic switching button 4, a speed adjusting groove 5, a speed adjusting rod 6, a hairbrush rod 7, a slide rail 8, an infrared fixing plate 9, an infrared detector 10, a slide bearing 11, a hairbrush base 12, a hairbrush 13, an anti-touch support column 14, a touch plate 15, a touch connecting rod 16, a touch 17 and a rubber sleeve 18, wherein the slide rail 8 is arranged on the inner side of the slide rail 1, the inner side of the slide rail 8 is connected with the air splicer 2 through the, the sliding rail protection plate 1 is concave and semicircular, the concave radius of the sliding rail protection plate 1 is matched with the radius of the sliding bearing 11, so that the air splicer 2 runs in the sliding rail 8, the front side of the air splicer 2 is provided with an operation panel 3 and a speed adjusting groove 5, the front side of the operation panel 3 is provided with a manual-automatic switching button 4, the inner side of the speed adjusting groove 5 is provided with a speed adjusting rod 6, the speed adjusting rod 6 is a movable rod, the movable distance of the speed adjusting rod 6 is consistent with the length of the speed adjusting groove 5, the speed adjusting rod 6 is movably connected with the speed adjusting groove 5, so that the running speed of the air splicer 2 is adjusted, two sides of the air splicer 2 are respectively provided with a brush rod 7, an infrared fixing plate 9 and a touch preventing support column 14, one end of the brush rod 7 is provided with a brush base 12, the side surface of the brush base 12 is provided with a brush 13, the brush rod 7, the air splicer 2, the hairbrush rod 7 is a telescopic rod, the telescopic rod 7 is fixedly connected with the air splicer 2, accumulated flowers in the slide rail 8 are cleaned, an infrared detector 10 is arranged on the side face of an infrared fixing plate 9, an anti-collision plate 15 is arranged at one end of an anti-touch supporting column 14, a handle connecting rod 16 is arranged at the top of the air splicer 2, a handle 17 is fixed at the top end of the handle connecting rod 16, a rubber sleeve 18 is sleeved on the outer surface of the handle 17, the rubber sleeve 18 is processed by artificial rubber, a plurality of clamping grooves are formed in the outer surface of the rubber sleeve 18, the rubber sleeve 18 is attached to the outer surface of the handle 17, the friction force between a worker and the handle 17 is increased during manual operation and control, accidents are prevented, the inside of the air splicer 2 is connected with a data wire 204 through the infrared fixing plate 9, one end of the data wire 204 is connected with a reverse controller 202, and, the reverse controller 202 comprises a processing chip 203 arranged in the reverse controller 202 and a data wire 204 arranged on the side surface of the reverse controller 202, one end of the data wire 204 is embedded in the side surface of the reverse controller 202 to further control the air splicer 2 to move back and forth, the automation degree is improved, an oil cylinder type engine 205 is fixed at the bottom end of the reverse controller 202, an oil cylinder type engine fixing rod 201 is connected at the top of the oil cylinder type engine 205, an engine rotating shaft 206 is arranged on one side of the oil cylinder type engine 205, an engine gear 207 is connected at one end of the engine rotating shaft 206, a conversion shaft gear 208 is clamped at the bottom of the engine gear 207, a conversion shaft 209 is arranged at the bottom of the conversion shaft gear 208, a communicating shaft 2010 is connected at the bottom end of the conversion shaft 209, a sliding bearing protective shell 2011 is arranged on the inner side of the sliding bearing 11, an oil filling pipe 2012 is, the top of oiling pipe 2012 is connected with lubricating oil case 2013, and oiling pipe 2012 is sixty degrees angle with the bottom of lubricating oil case 2013, and oiling pipe 2012 runs through in the bottom of lubricating oil case 2013, and in oiling pipe 2012 pours into slide rail 8 with the lubricating oil in the lubricating oil case 2013 into, and then makes the frictional force between slide rail 8 and the slide bearing 11 diminish, and then improves the life of air splicer 2 once more.
The working principle is as follows: firstly, a worker checks whether the performance of each part of the air splicer 2 is normal enough, if some parts are found to be abnormal, the air splicer 2 is timely repaired or replaced, after the performance of each part of the air splicer 2 is checked to be normal, the air splicer 2 is arranged in the sliding rail 8 to start working, when the air splicer is used, the oil cylinder type engine 205 drives the switching shaft gear 208 to rotate through the engine rotating shaft 206 and the engine gear 207, then the switching shaft gear 208 drives the communicating shaft 2010 to operate through the switching shaft 209, and further drives the sliding bearing 11 to move back and forth, meanwhile, the oil filling pipe 2012 fills lubricating oil in the lubricating oil storage box 2013 into the sliding rail 8, so that the friction force between the sliding rail 8 and the sliding bearing 11 is reduced, the air splicer 2 starts to operate, and the brushes 13 are fixed on two sides of the air splicer 2 through the brush rods 7, so that the brushes 13 can clean the sliding rail 8 while the air splicer, and then clear away the accumulated flower in the slide rail 8, infrared detector 10 will feed back the data to the processing chip in the reverse controller 202 through data wire 204 when reaching the end soon 203, and then reverse controller 202 control cylinder type engine 205 reverse operation, when using manual control, if the condition of forgetting to carry out reverse operation by accident, prevent that collision board 15 can collide the barrier of end earlier, and then alleviate the degree of collision of air splicer 2, if the speed is too fast or when too slow, the staff can adjust through governor lever 6.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.