CN110306332A - A kind of method for processing nonwoven fabrics - Google Patents

Abstract

A kind of method for processing nonwoven fabrics of the invention, wherein, the non-woven fabrics processing unit (plant) includes fuselage, the first cavity is provided in the fuselage, the second cavity is provided in the first cavity roof, described fuselage or so is provided through the first sliding groove, is provided with third cavity in the first sliding groove bottom wall of the fuselage left end；Apparatus of the present invention carry out kinetic energy conversion using transmission switching mechanism; equipment kinetic energy efficiency is high; equipment utilization ratchet protective device protection non-woven fabrics cleaning process is unidirectionally moved; avoiding non-woven fabrics pullling in a device leads to fibre damage; improve the safety of equipment cleaning; equipment reaction is sensitive; flexible operation is convenient; pollutant is carried out using mechanical kinetic energy simultaneously to shake off and cleaning operation; apparatus of the present invention cleaning efficiency is high, is easy to adjust, versatile; cleaning process independently carries out, high degree of automation.

Description

A kind of method for processing nonwoven fabrics

Technical field

The present invention relates to non-woven fabrics manufacture field, a kind of specifically a kind of method for processing nonwoven fabrics.

Background technique

Non-woven fabrics is cleaned in process, and traditional cleaning way is manpower cleaning, cleaning process Time-consuming and laborious, efficiency is extremely low；And when being cleaned using common mechanical equipment, it is aggravated since non-woven fabrics absorbs water, is not easy transport It is not easy to be dried, while Integral cleaning not energy-efficient and environmental protection.

Summary of the invention

Technical problem to be solved by the invention is to provide a kind of method for processing nonwoven fabrics, are able to solve above-mentioned present skill The problems in art.

The present invention is achieved through the following technical solutions: a kind of method for processing nonwoven fabrics of the invention, wherein the nothing Woven fabric processing unit (plant) includes fuselage, and the first cavity is provided in the fuselage, and the second sky is provided in the first cavity roof Chamber, described fuselage or so are provided through the first sliding groove, are provided in the first sliding groove bottom wall of the fuselage left end Third cavity is provided with and communicated with the first connectivity slot, second cavity and institute between the third cavity and second cavity It states and is provided with transmission switching mechanism between the first cavity, it is symmetrical above and below in the first sliding groove roof of the fuselage left end to set It is equipped with opening the 4th cavity to the right, is provided with the 5th cavity in the 4th cavity roof, the 5th cavity and described the Idler wheel deslagging device is provided between two cavitys, it is symmetrical above and below in end wall on the right side of second cavity to be provided with connection described first 6th cavity of sliding groove, the interior rotation of the 6th cavity are provided with the first rotating shaft that front and back extends, the first rotating shaft appearance Face is fixedly installed the first idler wheel, is provided with the 7th cavity on the right side of the 6th cavity in end wall, and the 7th cavity bottom wall connects Logical to be provided with, the bottom wall is provided with and communicated with the 8th cavity, is provided with the 9th cavity in the 7th cavity roof, and the described 9th It is provided with idler wheel jetter between cavity and the 8th cavity, is provided with the tenth sky on the right side of the 9th cavity in end wall Chamber, the tenth cavity bottom wall are provided with the 11st cavity, the first sliding groove connection symmetrical above and below of the fuselage right end It is provided with the 12nd cavity, is provided with and communicated with the second connectivity slot between the 12nd cavity and the 11st cavity, it is described Ratchet protective device is provided between tenth cavity and the 12nd cavity；

This method is technically characterized in that after non-woven fabrics places, the ratchet protective device starts, the transmission interpreter Structure transmits kinetic energy into the idler wheel deslagging device, and the idler wheel deslagging device operating carries out pollutant process and shakes off process, together Shi Suoshu transmission switching mechanism transmitting kinetic energy carries out the non-woven fabrics after hydro-peening slagging-off into the idler wheel jetter, cleans The protection for closing the ratchet protective device after the completion freely can adjust or unload the non-woven fabrics.

Wherein, the transmission switching mechanism includes first cavity, rotation setting in bottom wall on the left of first cavity There is the first spline housing upwardly extended, rotation is provided with the second spline housing, institute between first cavity and second cavity It states between the 8th cavity and first cavity rotation and is provided with the second shaft being connected by power with the first driving motor, described the Second shaft outer surface in one cavity is fixedly installed the first disk, second shaft end in the 8th cavity End is fixedly installed first bevel gear, is driven and sets between first disk, second spline housing and first spline housing It is equipped with belt, third connecting slot is provided with and communicated between the third cavity and first cavity, is slided in the third cavity Dynamic to be provided with the first sliding block, rotation is provided with for extending downwardly and matching with first spline housing in first sliding block One splined shaft, first splined shaft is protruded into first cavity by the third connecting slot matches with first spline housing It closes, first splined shaft outer surface in the third cavity is fixedly installed the first screw rod, and first sliding block bottom end is set It is equipped with the second sliding block slided in the third cavity, is fixedly installed in second sliding block and is mutually nibbled with first screw rod The first screw thread closed, the second sliding block right end face are fixedly installed the fixed block protruded into second cavity, and described the One cavity bottom wall is provided with the 13rd cavity, is provided with and communicated with the 4th between the 13rd cavity and first cavity and is connected to Slot, the 13rd cavity floor are fixedly installed the first electromagnet, and first electromagnet upper end, which is provided with, to be matched therewith The first permanent magnet, be fixedly installed the first spring between first permanent magnet and the 13rd cavity roof, described One permanent magnet top surface is fixedly installed the mandril abutted by the 4th connectivity slot with first splined shaft, and described first is empty Chamber and the fuselage outer side are provided with and communicated with discharge slot, and left and right is provided with and communicated between second cavity and first cavity Symmetrical 5th connectivity slot；

It is characterized by: first driving motor drives the second shaft to rotate when the equipment is cleaned, described second Shaft transmits kinetic energy into the idler wheel jetter, and second shaft drives first disk rotational, first circle Disk drives second spline housing and the first spline housing to rotate by the belt, second spline housing and first spline Set rotation transmitting kinetic energy is into the idler wheel deslagging device.

Wherein, the idler wheel deslagging device includes second cavity, in second cavity sliding be provided with it is described The third sliding block that fixed block abuts against is provided with the 14th cavity of opening upwards in the third sliding block, and the described 14th is empty Rotation is provided with the second splined shaft matched with second spline housing between chamber and second cavity, and the described 14th is empty Intracavitary the second spline shaft end is fixedly installed second bevel gear, and rotation is provided with front and back and prolongs in the 14th cavity The third shaft stretched, third shaft outer surface be fixedly installed the third hand tap gear that is meshed with the second bevel gear with And the second idler wheel on rear side of the third hand tap gear, second cavity top surface bilateral symmetry are fixedly installed first pressure Inductor, rotation is provided with the 4th shaft between the 5th cavity and second cavity, described in second cavity 4th shaft end is fixedly installed the 4th bevel gear matched with the second bevel gear, described in the 5th cavity 4th shaft end is fixedly installed the 5th bevel gear, and rotation is provided with the between the 5th bevel gear and the 4th cavity Five shafts, the 5th shaft outer surface in the 4th cavity are fixedly installed cam, and sliding is set in the 4th cavity It is equipped with the Four-slider matched with the cam, the Four-slider right end face, which is fixedly installed, protrudes into second cavity Interior percussion bar, is provided with and communicated with the second sliding groove that Open Side Down in the 4th cavity roof, in second sliding groove Sliding is provided with the 5th sliding block being fixedly connected with the Four-slider, the 5th sliding block and the second sliding groove right-hand end Second spring is fixedly connected between face；

It is characterized by: when transmission switching mechanism transmitting kinetic energy is into the 4th bevel gear, the 4th bevel gear The 5th bevel gear is driven to rotate, the 5th bevel gear drives the cam to rotate, and the 4th is sliding described in the cam driven Block sliding, Four-slider sliding make the percussions bar tap the non-woven fabrics back and forth to carry out removing slag operation.

Preferably, the idler wheel jetter includes the 7th cavity, and sliding is provided with the 6th in the 7th cavity Sliding block, the 6th sliding block top surface are fixedly installed the second permanent magnet, and the 7th cavity top surface is fixedly installed and described The second electromagnet that two permanent magnets match, rotation is provided with third spline between the 9th cavity and the 7th cavity It covers, the third spline housing outer surface in the 9th cavity is fixedly installed the 6th bevel gear, the 9th cavity right side It is fixedly installed the second driving motor in end wall, second driving motor left end has been connected by power the 6th shaft, and the described 6th Shaft end is fixedly installed the 7th bevel gear being meshed with the 6th bevel gear, is provided with opening in the 6th sliding block The 15th downward cavity, rotation is provided with and the third spline housing phase between the 15th cavity and the 7th cavity The third splined shaft of cooperation, the third spline shaft end in the 15th cavity are fixedly installed the 8th bevel gear, institute State rotation in the 15th cavity and be provided with the 7th shaft that front and back extends, the 7th shaft outer surface be fixedly installed with it is described The 9th bevel gear and the third idler wheel on rear side of the 9th bevel gear that 8th bevel gear is meshed, the 7th cavity Bottom surface left end is fixedly installed second pressure inductor, is provided with and communicated with the 16th cavity in the left side end wall, and the described tenth Rotation is provided with the eight revolution axis that front and back extends in six cavitys, and the eight revolution axis outer surface is fixedly installed water pistol, described End wall and the fuselage outer side are provided with and communicated with rhone on the right side of 8th cavity, and rotation is provided with front and back and prolongs in the 8th cavity The 9th shaft stretched, the 9th shaft outer surface be fixedly installed the tenth bevel gear that is meshed with the first bevel gear with And wheel is scrubbed on rear side of the tenth bevel gear；

It is characterized by: when transmission switching mechanism transmitting kinetic energy is into the first bevel gear, the first bevel gear It drives the tenth bevel gear to rotate, scrubs wheel rotation described in the tenth bevel gear drive, while the 6th sliding block is downward Second pressure inductor described in slide trigger, the water pistol are sprayed water, and the non-woven fabrics carries out scrubbing operation.

Preferably, the ratchet protective device includes the tenth cavity, and the second driving motor right end is connected by power There is the tenth shaft, the tenth shaft end is fixedly installed the 11st bevel gear, the tenth cavity and the 11st sky Rotation is provided with the 11st shaft between chamber, the 11st shaft end in the tenth cavity be fixedly installed with it is described The 12nd bevel gear that 11st bevel gear is meshed, the 11st shaft end fixed setting in the 11st cavity There is the second screw rod, sliding is provided with the 7th sliding block in the 11st cavity, is provided with and described second in the 7th sliding block The second screw thread that screw rod is meshed is provided with the 12nd shaft that Open Side Down, the 12nd shaft in the 7th sliding block Interior rotation is provided with the 13rd shaft, and the 13rd shaft outer surface is fixedly installed the second disk, the 13rd shaft Outer surface rotation is provided with the pawl on front side of second disk, is fixedly connected between the pawl and second disk There is third spring, rotation is provided with the 14th shaft that front and back extends, the 14th shaft appearance in the 12nd cavity Face is fixedly installed the 4th idler wheel, the 14th shaft outer surface of first sliding groove upper end be fixedly installed with it is described The ratchet that pawl matches；

It is characterized by: when the equipment needs to adjust the position of the non-woven fabrics, the 11st shaft drives described the The rotation of 11 bevel gears, the 11st bevel gear drive the 12nd bevel gear rotation, and the tenth plug tap gear drives The rotation of second screw rod, second screw rod drive the ratchet and the click-fit by the second screw thread, make the non-woven fabrics Only unidirectionally moved.

The invention has the advantages that: apparatus of the present invention to carry out kinetic energy conversion, equipment kinetic energy efficiency using transmission switching mechanism Height, equipment utilization ratchet protective device protection non-woven fabrics cleaning process are unidirectionally moved, and avoid non-woven fabrics in a device Pullling leads to fibre damage, improves the safety of equipment cleaning, and equipment reaction is sensitive, and flexible operation is convenient, while utilizing machine Tool kinetic energy progress pollutant shakes off and cleaning operation, and apparatus of the present invention cleaning efficiency is high, is easy to adjust, versatile, cleans Cheng Zizhu is carried out, high degree of automation.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is a kind of non-woven fabrics processing unit (plant) overall structure diagram of the invention；

Fig. 2 is the enlarged structure schematic diagram of A in Fig. 1；

Fig. 3 is the enlarged structure schematic diagram of B in Fig. 1.

Specific embodiment

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.This specification (including any accessory claim, abstract and Attached drawing) disclosed in any feature, unless specifically stated, can alternative features equivalent by other or with similar purpose be subject to Replacement.That is, unless specifically stated, each feature is an example in a series of equivalent or similar characteristics.

In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise " is based on attached orientation or positional relationship shown in FIG. 1, merely to just In description the present invention and simplify description, rather than the equipment of indication or suggestion meaning or element must have a particular orientation, with Specific orientation construction and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.In the description of the present invention, the meaning of " plurality " is two or more, Unless otherwise specifically defined.

As shown in Figure 1-3, a kind of method for processing nonwoven fabrics of the invention, wherein the non-woven fabrics processing unit (plant) includes fuselage 100, the first cavity 119 is provided in the fuselage 100, is provided with the second cavity 133, institute in 119 roof of the first cavity It states fuselage 100 or so and is provided through the first sliding groove 111, in 111 bottom wall of the first sliding groove of 100 left end of fuselage It is provided with third cavity 115, is provided with and communicated with the first connectivity slot between the third cavity 115 and second cavity 133 175, transmission switching mechanism is provided between second cavity 133 and first cavity 119,100 left end of fuselage It is symmetrical above and below in first sliding groove, 111 roof to be provided with the 4th cavity 110 of opening to the right, the 4th cavity 110 top It is provided with the 5th cavity 103 in wall, is provided with idler wheel deslagging device between the 5th cavity 103 and second cavity 133, It is symmetrical above and below in second cavity, the 133 right side end wall to be provided with the 6th cavity 193 for being connected to first sliding groove 111, institute It states rotation in the 6th cavity 193 and is provided with the first rotating shaft 194 that front and back extends, 194 outer surface of the first rotating shaft fixed setting There is the first idler wheel 195, the 7th cavity 140,140 bottom wall of the 7th cavity are provided in the 193 right side end wall of the 6th cavity 191 are provided with and communicated with, 191 bottom wall is provided with and communicated with the 8th cavity 187, and is provided in 140 roof of the 7th cavity Nine cavitys 136 are provided with idler wheel jetter, the 9th cavity between the 9th cavity 136 and the 8th cavity 187 The tenth cavity 164 is provided in 136 right side end walls, 164 bottom wall of the tenth cavity is provided with the 11st cavity 161, the machine First sliding groove 111 of 100 right end of body is symmetrical above and below to be provided with and communicated with the 12nd cavity 149, the 12nd cavity 149 The second connectivity slot 196, the tenth cavity 164 and the 12nd sky are provided with and communicated between the 11st cavity 161 Ratchet protective device is provided between chamber 149.

In the following, will introduce in detail for realizing the specific implementation of the transmission switching mechanism, such as Fig. 1 and Fig. 3 Shown, the transmission switching mechanism includes first cavity 119, and rotation is provided in the 119 left side bottom wall of the first cavity The first spline housing 120 upwardly extended, rotation is provided with the second flower between first cavity 119 and second cavity 133 Key set 179, rotation is provided between the 8th cavity 187 and first cavity 119 connects with 180 power of the first driving motor The second shaft 182 connect, 182 outer surface of the second shaft in first cavity 119 are fixedly installed the first disk 181,182 end of the second shaft in the 8th cavity 187 is fixedly installed first bevel gear 183, first circle Transmission is provided with belt 129, the third cavity between disk 181, second spline housing 179 and first spline housing 120 It is provided with and communicated with third connecting slot 118 between 115 and first cavity 119, sliding is provided with the in the third cavity 115 One sliding block 112, rotation is provided with for extending downwardly and matching with first spline housing 120 in first sliding block 112 One splined shaft 113, first splined shaft 113 by the third connecting slot 118 protrude into first cavity 119 with it is described First spline housing 120 cooperates, and 113 outer surface of the first splined shaft in the third cavity 115 is fixedly installed the first spiral shell Bar 114,112 bottom end of the first sliding block are provided with the second sliding block 116 slided in the third cavity 115, and described second The first screw thread 117 being meshed with first screw rod 114,116 right-hand end of the second sliding block are fixedly installed in sliding block 116 Face is fixedly installed the fixed block 177 protruded into second cavity 133, and 119 bottom wall of the first cavity is provided with the 13rd Cavity 124, is provided with and communicated with the 4th connectivity slot 123 between the 13rd cavity 124 and first cavity 119, and described 13 cavity, 124 bottom surface is fixedly installed the first electromagnet 125, and 125 upper end of the first electromagnet, which is provided with, to be matched therewith The first permanent magnet 126, be fixedly installed the first bullet between first permanent magnet 126 and 124 roof of the 13rd cavity Spring 127,126 top surface of the first permanent magnet are fixedly installed through the 4th connectivity slot 123 and first splined shaft 113 Discharge slot 128 is provided with and communicated on the outside of the mandril 122 of abutting, first cavity 119 and the fuselage 100, described second is empty Symmetrical 5th connectivity slot 178 is provided with and communicated between chamber 133 and first cavity 119.

Next, the idler wheel deslagging device of the application is discussed in detail with reference to Fig. 1-3, the idler wheel deslagging device includes institute The second cavity 133 is stated, sliding is provided with the third sliding block 176 abutted against with the fixed block 177 in second cavity 133, The 14th cavity 173 of opening upwards, the 14th cavity 173 and second sky are provided in the third sliding block 176 Rotation is provided with the second splined shaft 174 matched with second spline housing 179, the 14th cavity 173 between chamber 133 Interior 174 end of the second splined shaft is fixedly installed second bevel gear 172, rotation setting in the 14th cavity 173 The third shaft 171 for having front and back to extend, 171 outer surface of third shaft is fixedly installed and 172 phase of second bevel gear The third hand tap gear 170 of engagement and the second idler wheel 169 on rear side of the third hand tap gear 170, second cavity 133 Top surface bilateral symmetry is fixedly installed first pressure inductor 134, between the 5th cavity 103 and second cavity 133 Rotation be provided with the 4th shaft 101,101 end of the 4th shaft in second cavity 133 be fixedly installed with it is described The 4th bevel gear 131 that second bevel gear 172 matches, 101 end of the 4th shaft in the 5th cavity 103 are fixed It is provided with the 5th bevel gear 102, rotation is provided with the 5th shaft between the 5th bevel gear 102 and the 4th cavity 110 108,108 outer surface of the 5th shaft in the 4th cavity 110 is fixedly installed cam 109, the 4th cavity 110 Interior sliding is provided with the Four-slider 107 matched with the cam 109,107 right end face of the Four-slider fixed setting There is the percussion bar 130 protruded into second cavity 133, is provided with and communicated with what Open Side Down in 110 roof of the 4th cavity Second sliding groove 106, it is sliding that the interior sliding of second sliding groove 106 is provided with the 5th be fixedly connected with the Four-slider 107 Block 105 is fixedly connected with second spring 132 between the 5th sliding block 105 and 106 right end face of the second sliding groove.

Valuably, as shown in Figure 1-3, the idler wheel jetter includes the 7th cavity 140, the 7th cavity Sliding is provided with the 6th sliding block 143 in 140, and 143 top surface of the 6th sliding block is fixedly installed the second permanent magnet 142, and described the Seven cavitys, 140 top surface is fixedly installed the second electromagnet 141 matched with second permanent magnet 142, the 9th cavity Rotation is provided with third spline housing 139 between 136 and the 7th cavity 140, the third flower in the 9th cavity 136 Key covers 139 outer surfaces and is fixedly installed the 6th bevel gear 138, is fixedly installed second in the 136 right side end wall of the 9th cavity Driving motor 167,167 left end of the second driving motor have been connected by power the 6th shaft 168,168 end of the 6th shaft It is fixedly installed the 7th bevel gear 135 being meshed with the 6th bevel gear 138, is provided with out in the 6th sliding block 143 Mouthful the 15th downward cavity 144, between the 15th cavity 144 and the 7th cavity 140 rotation be provided with it is described The third splined shaft 137 that third spline housing 139 matches, 137 end of third splined shaft in the 15th cavity 144 It is fixedly installed the 8th bevel gear 145, rotation is provided with the 7th shaft 148 that front and back extends, institute in the 15th cavity 144 148 outer surface of the 7th shaft is stated to be fixedly installed the 9th bevel gear 147 being meshed with the 8th bevel gear 145 and be located at The third idler wheel 146 of 9th bevel gear, 147 rear side, the 140 bottom surface left end of the 7th cavity is fixedly installed second pressure Inductor 192 is provided with and communicated with the 16th cavity 188 in the end wall of 191 left side, and rotation is set in the 16th cavity 188 It is equipped with the eight revolution axis 189 that front and back extends, 189 outer surface of eight revolution axis is fixedly installed water pistol 190, and the described 8th is empty Rhone 197 is provided with and communicated on the outside of 187 right side end wall of chamber and the fuselage 100, rotation is provided in the 8th cavity 187 The 9th shaft 184 that front and back extends, 184 outer surface of the 9th shaft is fixedly installed nibbles with 183 phase of first bevel gear The tenth bevel gear 185 closed and wheel 186 is scrubbed positioned at 185 rear side of the tenth bevel gear.

Valuably, as shown in Figures 1 and 2, the ratchet protective device includes the tenth cavity 164, and described second drives Dynamic 167 right end of motor has been connected by power the tenth shaft 166, and 166 end of the tenth shaft is fixedly installed the 11st bevel gear 165, rotation is provided with the 11st shaft 162 between the tenth cavity 164 and the 11st cavity 161, and the described tenth is empty 162 end of the 11st shaft in chamber 164 is fixedly installed the tenth plug tap being meshed with the 11st bevel gear 165 Gear 163,162 end of the 11st shaft in the 11st cavity 161 is fixedly installed the second screw rod 160, described Sliding is provided with the 7th sliding block 158 in 11st cavity 161, is provided in the 7th sliding block 158 and second screw rod 160 The second screw thread 159 being meshed, is provided with the 12nd shaft 157 that Open Side Down in the 7th sliding block 158, and the described 12nd Rotation is provided with the 13rd shaft 154 in shaft 157, and 154 outer surface of the 13rd shaft is fixedly installed the second disk 156,154 outer surface of the 13rd shaft rotation is provided with the pawl 155 positioned at 156 front side of the second disk, the spine Third spring 153 is fixedly connected between pawl 155 and second disk 156, rotation is provided in the 12nd cavity 149 The 14th shaft 151 that front and back extends, 151 outer surface of the 14th shaft are fixedly installed the 4th idler wheel 150, and described first 151 outer surface of the 14th shaft of 111 upper end of sliding groove is fixedly installed the ratchet 152 matched with the pawl 155.

In the following, applicant will refer to the specific of the non-woven fabrics processing unit (plant) of attached drawing 1-3 and the application described above Composition is to be discussed in detail a kind of method for processing nonwoven fabrics of the application: firstly, in the initial state, 117, first screw thread In 115 bottom end of third cavity, first splined shaft 113 cooperates with first spline housing 120 transmission, first electricity Magnet 125 is moved with the cam 109 that first permanent magnet 126 attracts each other close, symmetrical above and below on the contrary, the third Spline housing 139 and the third splined shaft 137 are driven cooperation, second spline housing 179 and second splined shaft 174 always Always transmission cooperation, the 7th sliding block 158 are located at 161 bottom end of the 11st cavity, second electromagnet 141 with it is described Second permanent magnet 142 attracts each other contact, and the third sliding block 176 is located at 133 bottom end of the second cavity and the fixed block 177 abut, and first driving motor 180 is in stationary state with second driving motor 167.

The equipment of the invention equipment when starting to work is powered, and non-woven fabrics places first cunning by the fuselage 100 In dynamic slot 111, adjustment is pullled in first sliding groove 111 needs cleaning parts to 100 left side of fuselage, and later on the One switch, second driving motor 167 drive the tenth shaft 166 to rotate, and second driving motor 167 drives described The rotation of 11st bevel gear 165, the 11st bevel gear 165 drive the 12nd bevel gear 163 to rotate, and the described 12nd Bevel gear 163 drives second screw rod 160 to rotate, and the rotation of the second screw rod 160 drives the 7th sliding block 158 to downslide Dynamic, 158 slide downward of the 7th sliding block cooperates the pawl 155 with the ratchet 152, and the non-woven fabrics unidirectionally moves, The non-woven fabrics can only slide to the right at this time；

Later on second switch, first driving motor 180 drive the first bevel gear 183 to rotate, and described second drives Dynamic motor 167 drives the 6th shaft 168 to rotate, and the first bevel gear 183 drives first disk 181 to rotate, institute It states the first disk 181 and drives first spline housing 120 to rotate with second spline housing 179 by the belt 129, it is described Second spline housing 179 drives second splined shaft 174 to rotate, and second splined shaft 174 drives the third hand tap gear 170 Rotation, the third hand tap gear 170 drive second idler wheel 169 to rotate, while first spline housing 120 drives described the The rotation of one splined shaft 113, first splined shaft 113 drive first screw rod 114 to rotate, and first screw rod 114 passes through First screw thread 117 drives 116 upward sliding of the second sliding block, and first screw thread 117 passes through 177 band of fixed block Move 176 upward sliding of third sliding block, 176 upward sliding of third sliding block makes the second bevel gear 172 and described the The transmission cooperation of four bevel gears 131,176 upward sliding of third sliding block presses the first pressure inductor 134 at this time, described First pressure inductor 134 keeps first electromagnet 125 and first permanent magnet 126 mutually exclusive separate, and described second Electromagnet 141 and second permanent magnet 142 are mutually exclusive separate, and first permanent magnet 126 drives the mandril 122 upwards Sliding, the mandril 122, which presses first splined shaft 113, makes first splined shaft 113 and first spline housing 120 not It is driven cooperation again, the third sliding block 176 is fixed to 133 upper end of the second cavity and carries out transmission cooperation, while the nothing Woven fabric is contacted and is brought into the fuselage 100, the second bevel gear with second idler wheel 169 with the third idler wheel 146 172 drive the 4th bevel gears 131 rotation, and the 4th bevel gear 131 drives the 5th cavity 103 to rotate, and described the Five cavitys 103 drive 104 rotation, and described 104 drive the cam 109 to rotate, and the rotation of cam 109 drive the described 4th is sliding Block 107 horizontally slips, and the Four-slider 107 drives the percussion bar 130 to move left and right and taps the non-woven fabrics, completes to institute The pollutant process in non-woven fabrics is stated, the pollutant is discharged by the 5th connectivity slot 178 with the discharge slot 128 described In equipment；

At the same time, second electromagnet 141 and second permanent magnet 142 are mutually exclusive separate, the 6th sliding block 143 Slide downward contacts the third idler wheel 146 with the non-woven fabrics and non-woven fabrics is made to be engaged with the wheel 186 of scrubbing, institute It states 143 slide downward of the 6th sliding block and presses the second pressure inductor 192, the second pressure inductor 192 starts described Water pistol 190 sprays water to the non-woven fabrics, while second shaft 182 drives the first bevel gear 183 to rotate, institute Stating first bevel gear 183 drives the tenth bevel gear 185 to rotate, and the tenth bevel gear 185 drives described scrub to take turns 186 turns Dynamic, described to scrub 186 rotation of wheel and scrub the non-woven fabrics, the equipment is discharged by the rhone 197 in the sewage after scrubbing In；

After non-woven fabrics cleaning completes one section, when need to adjust position and clean the next position, the second switch is closed simultaneously The first switch reversion is opened, continues to pull the adjustment non-woven fabrics, after being again turned on first switch rotating forward and second switch, Equipment continues cleaning operation.

It can be seen that apparatus of the present invention by detailed analysis above and carry out kinetic energy conversion using transmission switching mechanism, if Standby kinetic energy efficiency is high, and equipment utilization ratchet protective device protection non-woven fabrics cleaning process is unidirectionally moved, and avoids nonwoven Cloth pullling in a device leads to fibre damage, improves the safety of equipment cleaning, equipment reaction is sensitive, and flexible operation is just Victory, while carrying out pollutant using mechanical kinetic energy and shaking off and cleaning operation, apparatus of the present invention cleaning efficiency is high, is easy to adjust, and leads to Strong with property, cleaning process independently carries out, high degree of automation.

In conclusion be only invention specific embodiment, but invent protection scope be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention It should be determined by the scope of protection defined in the claims.

Claims (5)

1. a kind of method for processing nonwoven fabrics of the invention, wherein the non-woven fabrics processing unit (plant) includes fuselage, setting in the fuselage There is the first cavity, is provided with the second cavity in the first cavity roof, it is characterised in that: described fuselage or so is provided through First sliding groove, described the first of the fuselage left end, which slides in groove bottom wall, is provided with third cavity, the third cavity and institute It states and is provided with and communicated with the first connectivity slot between the second cavity, transmission is provided between second cavity and first cavity and is turned It changes planes structure, it is symmetrical above and below in the first sliding groove roof of the fuselage left end to be provided with the 4th cavity of opening to the right, institute It states and is provided with the 5th cavity in the 4th cavity roof, idler wheel slagging-off dress is provided between the 5th cavity and second cavity It sets, it is symmetrical above and below in end wall on the right side of second cavity to be provided with the 6th cavity for being connected to first sliding groove, the described 6th Rotation is provided with the first rotating shaft that front and back extends in cavity, and the first rotating shaft outer surface is fixedly installed the first idler wheel, described It is provided with the 7th cavity in end wall on the right side of 6th cavity, the 7th cavity bottom wall is provided with and communicated with, the bottom wall connection setting There is the 8th cavity, the 9th cavity is provided in the 7th cavity roof, is set between the 9th cavity and the 8th cavity It is equipped with idler wheel jetter, is provided with the tenth cavity in end wall on the right side of the 9th cavity, the tenth cavity bottom wall is provided with 11st cavity, first sliding groove of the fuselage right end is symmetrical above and below to be provided with and communicated with the 12nd cavity, and the described tenth Be provided with and communicated with the second connectivity slot between two cavitys and the 11st cavity, the tenth cavity and the 12nd cavity it Between be provided with ratchet protective device；

This method is technically characterized in that after non-woven fabrics places, the ratchet protective device starts, the transmission interpreter Structure transmits kinetic energy into the idler wheel deslagging device, and the idler wheel deslagging device operating carries out pollutant process and shakes off process, together Shi Suoshu transmission switching mechanism transmitting kinetic energy carries out the non-woven fabrics after hydro-peening slagging-off into the idler wheel jetter, cleans The protection for closing the ratchet protective device after the completion freely can adjust or unload the non-woven fabrics.

2. non-woven fabrics processing unit (plant) according to claim 1, wherein the transmission switching mechanism includes described first empty Chamber, rotation is provided with the first spline housing upwardly extended in bottom wall on the left of first cavity, first cavity and described the Rotation is provided with the second spline housing between two cavitys, and rotation is provided with and first between the 8th cavity and first cavity The second shaft that driving motor is connected by power, second shaft outer surface in first cavity are fixedly installed the first circle Disk, second shaft end in the 8th cavity are fixedly installed first bevel gear, first disk, described second Transmission is provided with belt between spline housing and first spline housing, is connected to and sets between the third cavity and first cavity It is equipped with third connecting slot, sliding is provided with the first sliding block in the third cavity, and rotation is provided with downwards in first sliding block The first splined shaft for extending and matching with first spline housing, first splined shaft are protruded by the third connecting slot Cooperate in first cavity with first spline housing, first splined shaft outer surface fixation in the third cavity is set It is equipped with the first screw rod, first sliding block bottom end is provided with the second sliding block slided in the third cavity, and described second is sliding The first screw thread being meshed with first screw rod is fixedly installed in block, the second sliding block right end face, which is fixedly installed, stretches Enter the fixed block in second cavity, the first cavity bottom wall is provided with the 13rd cavity, the 13rd cavity and institute It states and is provided with and communicated with the 4th connectivity slot between the first cavity, the 13rd cavity floor is fixedly installed the first electromagnet, institute It states the first electromagnet upper end and is provided with the first permanent magnet being matched therewith, first permanent magnet and the 13rd cavity top Be fixedly installed the first spring between wall, first permanent magnet top surface be fixedly installed by the 4th connectivity slot with it is described The mandril that first splined shaft abuts, first cavity and the fuselage outer side are provided with and communicated with discharge slot, second cavity Symmetrical 5th connectivity slot is provided with and communicated between first cavity；

It is characterized by: first driving motor drives the second shaft to rotate when the equipment is cleaned, described second Shaft transmits kinetic energy into the idler wheel jetter, and second shaft drives first disk rotational, first circle Disk drives second spline housing and the first spline housing to rotate by the belt, second spline housing and first spline Set rotation transmitting kinetic energy is into the idler wheel deslagging device.

3. non-woven fabrics processing unit (plant) according to claim 1 or 2, wherein the idler wheel deslagging device includes described second Cavity, the interior sliding of second cavity are provided with the third sliding block abutted against with the fixed block, setting in the third sliding block There is the 14th cavity of opening upwards, rotation is provided with and second flower between the 14th cavity and second cavity The second splined shaft that key set matches, the second spline shaft end in the 14th cavity are fixedly installed the second cone tooth Wheel, the interior rotation of the 14th cavity are provided with the third shaft that front and back extends, and third shaft outer surface is fixedly installed The third hand tap gear being meshed with the second bevel gear and the second idler wheel on rear side of the third hand tap gear, described Two cavity top surfaces bilateral symmetry is fixedly installed first pressure inductor, rotates between the 5th cavity and second cavity It is provided with the 4th shaft, the 4th shaft end in second cavity is fixedly installed to match with the second bevel gear The 4th bevel gear closed, the 4th shaft end in the 5th cavity are fixedly installed the 5th bevel gear, and the described 5th Rotation is provided with the 5th shaft, the 5th shaft outer surface in the 4th cavity between bevel gear and the 4th cavity It is fixedly installed cam, sliding is provided with the Four-slider matched with the cam in the 4th cavity, and the described 4th is sliding Block right end face is fixedly installed the percussion bar protruded into second cavity, is provided with and communicated with out in the 4th cavity roof The second downward sliding groove of mouth, it is sliding that the interior sliding of second sliding groove is provided with the 5th be fixedly connected with the Four-slider Block is fixedly connected with second spring between the 5th sliding block and the second sliding groove right end face；

It is characterized by: when transmission switching mechanism transmitting kinetic energy is into the 4th bevel gear, the 4th bevel gear The 5th bevel gear is driven to rotate, the 5th bevel gear drives the cam to rotate, and the 4th is sliding described in the cam driven Block sliding, Four-slider sliding make the percussions bar tap the non-woven fabrics back and forth to carry out removing slag operation.

4. non-woven fabrics processing unit (plant) according to claim 1 or 3, wherein the idler wheel jetter includes the described 7th Cavity, the interior sliding of the 7th cavity are provided with the 6th sliding block, and the 6th sliding block top surface is fixedly installed the second permanent magnet, institute State the 7th cavity top surface and be fixedly installed the second electromagnet matched with second permanent magnet, the 9th cavity with it is described Rotation is provided with third spline housing between 7th cavity, the third spline housing outer surface fixed setting in the 9th cavity There is the 6th bevel gear, be fixedly installed the second driving motor on the right side of the 9th cavity in end wall, second driving motor is left End has been connected by power the 6th shaft, and the 6th shaft end is fixedly installed the 7th cone being meshed with the 6th bevel gear Gear, is provided with the 15th cavity that Open Side Down in the 6th sliding block, the 15th cavity and the 7th cavity it Between rotation be provided with the third splined shaft matched with the third spline housing, the third spline in the 15th cavity Shaft end is fixedly installed the 8th bevel gear, and rotation is provided with the 7th shaft that front and back extends in the 15th cavity, described 7th shaft outer surface is fixedly installed the 9th bevel gear being meshed with the 8th bevel gear and is located at the 9th cone Third idler wheel on rear side of gear, the 7th cavity floor left end are fixedly installed second pressure inductor, the left side end wall It is inside provided with and communicated with the 16th cavity, the eight revolution axis of extension before and after rotation is provided in the 16th cavity, the described 8th Shaft outer surface is fixedly installed water pistol, and end wall and the fuselage outer side are provided with and communicated with draining on the right side of the 8th cavity Slot, rotation is provided with the 9th shaft that front and back extends in the 8th cavity, the 9th shaft outer surface be fixedly installed with The tenth bevel gear and scrub wheel on rear side of the tenth bevel gear that the first bevel gear is meshed；

It is characterized by: when transmission switching mechanism transmitting kinetic energy is into the first bevel gear, the first bevel gear It drives the tenth bevel gear to rotate, scrubs wheel rotation described in the tenth bevel gear drive, while the 6th sliding block is downward Second pressure inductor described in slide trigger, the water pistol are sprayed water, and the non-woven fabrics carries out scrubbing operation.

5. non-woven fabrics processing unit (plant) according to claim 1 or 4, wherein the ratchet protective device includes the described tenth Cavity, the second driving motor right end have been connected by power the tenth shaft, and the tenth shaft end is fixedly installed the 11st Bevel gear rotates between the tenth cavity and the 11st cavity and is provided with the 11st shaft, in the tenth cavity 11st shaft end is fixedly installed the 12nd bevel gear being meshed with the 11st bevel gear, and the described 11st The 11st shaft end in cavity is fixedly installed the second screw rod, and it is sliding to be provided with the 7th for sliding in the 11st cavity Block is provided with the second screw thread being meshed with second screw rod in the 7th sliding block, is provided with out in the 7th sliding block The 12nd downward shaft of mouth, the interior rotation of the 12nd shaft are provided with the 13rd shaft, the 13rd shaft outer surface It is fixedly installed the second disk, the 13rd shaft outer surface rotation is provided with the pawl on front side of second disk, Third spring is fixedly connected between the pawl and second disk, rotation is provided with front and back and prolongs in the 12nd cavity The 14th shaft stretched, the 14th shaft outer surface are fixedly installed the 4th idler wheel, the institute of first sliding groove upper end It states the 14th shaft outer surface and is fixedly installed the ratchet matched with the pawl；

It is characterized by: when the equipment needs to adjust the position of the non-woven fabrics, the 11st shaft drives described the The rotation of 11 bevel gears, the 11st bevel gear drive the 12nd bevel gear rotation, and the tenth plug tap gear drives The rotation of second screw rod, second screw rod drive the ratchet and the click-fit by the second screw thread, make the non-woven fabrics Only unidirectionally moved.