Disclosure of Invention
The invention aims to provide a non-woven fabric processing and cutting device capable of positioning and a using method thereof, so as to solve the problems that the conventional cutting device proposed in the background art does not have a positioning function and cannot perform positioning cutting on the cutting device, so that non-woven fabrics are easy to deviate in the cutting process, and the qualification rate of the non-woven fabrics is affected.
In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a device is tailor in non-woven fabrics processing that can fix a position, including the brace table, one side of brace table is equipped with the wind-up roll, the last fixed surface of brace table has the fixed plate, one side slip of fixed plate has the backup pad, the upper surface grafting of backup pad has the sword of tailorring, the both ends lateral wall of backup pad is equipped with the positioner that can fix a position, the bottom lateral wall of backup pad is equipped with the fixing device that can fix non-woven fabrics, make the connecting plate slide around the scale plate through sliding the backup pad, then utilize the block between through-hole and the buckle, make the backup pad obtain fixedly under the extrusion of buckle, thereby make the sword of tailorring tailor the non-woven fabrics according to appointed position, thereby make non-woven fabrics tailorring device have the function of location.
In a further embodiment, the positioning device comprises a connecting plate, the bottom lateral wall at the backup pad is fixed to the connecting plate, the scale plate is fixed to the lateral wall of fixed plate, the buckle is equipped with on the upper surface of connecting plate, the through-hole with buckle assorted is seted up to the lateral wall of scale plate, the fixed plate has two and is symmetrical about the horizontal center axis of brace table, the spout has been seted up to two opposite sides of fixed plate, the both ends of backup pad are fixed with the slider with spout 7 assorted, the slider can make the backup pad more laborsaving in the in-process that removes in the spout.
In further embodiments, the connecting plate is L form, the connecting plate has two and about the horizontal center pin symmetry of brace table, the upper surface of connecting plate rotates there is the joint board, the buckle is fixed in the one end that the joint board was kept away from to the joint board, the lateral wall of joint board is fixed with spacing spring, the one end that the joint board was kept away from to spacing spring and the upper surface fixed connection of connecting plate, the bottom lateral wall of connecting plate rotates there is the bolt, the bolt can make the joint board obtain fixing, thereby make the joint board can drive the block between buckle and the through-hole, and then make the backup pad can fix firmly, the convenient cutting shear is to the tailorring of non-woven fabrics.
In a further embodiment, fixing device includes extrusion piece, extrusion piece is located the outside of cutting tool and peg graft in the inner wall of backup pad, extrusion piece is located the inside one end of backup pad and is fixed with the fixed column, the lateral wall of fixed column rotates there is the transfer line, the inner wall of backup pad is fixed with the bracing piece, the center department rotation of transfer line is installed at the lateral wall of bracing piece, the one end that the transfer line kept away from the fixed column is fixed with the fixed block, the lateral wall of transfer line is fixed with reset spring, reset spring keeps away from the one end of transfer line and the inner wall fixed connection of backup pad, reset spring can make the transfer line in time reset to make things convenient for the repetitious usage of extrusion piece.
In further embodiments, the bottom lateral wall of backup pad is fixed with the baffle, and the lower extreme of baffle rotates there is the diaphragm, and the junction of baffle and diaphragm is fixed with the torsional spring, and the last fixed surface of diaphragm has the fixture block with fixed block assorted, and the fixture block is right angle triangle shape, and one side that the fixture block was kept away from to the diaphragm is fixed with and dials the piece, dials the piece and can extrude the non-woven fabrics to make things convenient for the cutting shear to the tailorring of non-woven fabrics.
The application method of the non-woven fabric processing and cutting device capable of positioning specifically comprises the following steps:
The connecting plate slides around the scale plate through the sliding support plate, then the clamping plate is enabled to always drive the buckle to extrude the scale plate through the elastic force provided by the limiting spring, then the through hole is matched with the buckle, when the buckle is clamped with the through hole, the support plate is fixed under the extrusion of the buckle, and the cutting knife cuts the non-woven fabric according to the appointed position.
Compared with the prior art, the invention has the beneficial effects that:
According to the non-woven fabric processing and cutting device capable of positioning and the use method thereof, the connecting plate slides around the scale plate through the sliding support plate, and then the support plate is fixed under the extrusion of the buckle by utilizing the clamping between the through hole and the buckle, so that the non-woven fabric is cut according to the designated position by the cutting knife, the non-woven fabric cutting device has the function of positioning, deviation can not occur in the non-woven fabric cutting process, and the qualification rate of the non-woven fabric can not be influenced.
Detailed Description
In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art that the invention may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the invention.
Example 1
Referring to fig. 1-3 and fig. 5, the present embodiment provides a positioning non-woven fabric processing and cutting device and a use method thereof, including a supporting table 1, wherein a wind-up roller 3 is provided on one side of the supporting table 1, the supporting table 1 is used for supporting non-woven fabrics, the wind-up roller 3 is a roller shaft structure wound with non-woven fabrics in the prior art, and is used as a raw material of the cutting device.
In this embodiment, in order to enable the cutting knife 8 to move, the fixing plate 2 is fixed on the upper surface of the supporting table 1, one side of the fixing plate 2 slides to have the supporting plate 5, the cutting knife 8 is inserted on the upper surface of the supporting plate 5, the fixing plates 2 have two and are symmetrical about the transverse central axis of the supporting table 1, the sliding grooves 7 are formed in one side of the two opposite fixing plates 2, the sliding blocks 10 matched with the sliding grooves 7 are fixed at two ends of the supporting plate 5, the sliding grooves 7 provide sliding space for the sliding blocks 10, and the sliding blocks 10 can move conveniently.
Wherein, the slider 10 can reduce the frictional force between backup pad 5 and the fixed plate 2 on the one hand, makes backup pad 5 reduce at the resistance that gliding in-process received, makes things convenient for the removal of backup pad 5, and slider 10 on the other hand can play spacing effect, makes backup pad 5 can not appear the phenomenon that both ends are nonparallel at gliding in-process.
When the slide blocks 10 are not arranged at the two ends of the supporting plate 5, the supporting plate 5 can have different distances between the two ends and the starting point in the sliding process, so that the supporting plate 5 is in an inclined state, non-woven fabrics cut out by the cutting knife 8 can have uneven sizes, and the use of the cutting knife 8 is inconvenient.
In order to enable the cutting knife 8 to have a positioning function in the cutting process, positioning devices 6 capable of positioning are arranged on the outer side walls of the two ends of the supporting plate 5, each positioning device 6 comprises a connecting plate 61, the connecting plates 61 are fixed on the outer side walls of the bottoms of the supporting plate 5, each connecting plate 61 is L-shaped, the two connecting plates 61 are symmetrical relative to the transverse central axis of the supporting table 1, the outer side walls of the fixing plates 2 are fixedly provided with scale plates 62, the L-shaped connecting plates 61 can be matched with the scale plates 62, and the phenomenon that the scale plates 62 are blocked due to the fact that the supporting plate 5 drives the scale plates 62 to move can be avoided.
In addition, the L-shaped connecting plate 61 can play a limiting role, so that if the two ends of the supporting plate 5 are asynchronous in the sliding process, the connecting plate 61 can be extruded with the bottom of the fixed plate 2, and thus the clamping phenomenon occurs, and the supporting plate 5 is stopped, so that the supporting plate 5 can be corrected in time conveniently.
The upper surface of connecting plate 61 is equipped with buckle 67, and wherein the upper surface of connecting plate 61 rotates has joint board 66, and buckle 67 fixes the one end that keeps away from connecting plate 61 at joint board 66, and joint board 66 is used for the support to buckle 67, and through-hole 63 with buckle 67 assorted is seted up to the lateral wall of scale plate 62, and through-hole 63 has a plurality ofly and the equidistance to be arranged at the lateral wall of scale plate 62.
The buckle 67 is a combination structure of a cylinder and a cone, and can be conveniently inserted into the through holes 63, preferably, the distance between two adjacent through holes 63 can be set according to requirements, so that each through hole 63 is a scale mark on the outer side wall of the scale plate 62, and the through holes 63 can be used for displaying the exact moving position of the support plate 5.
Meanwhile, the through holes 63 are used for displaying the scale marks of the scale plate 62, so that redundant scale marks can not appear on the outer surface of the scale plate 62, the support plate 5 can quickly read out the position marks when moving to a certain position, and the sight of a user can not be influenced, wherein the diameter of the through holes 63 is larger than the cross section caliber of the buckles 67, and the buckles 67 can still be clamped with the through holes 63 when the clamping plates 66 drive the buckles 67 to rotate.
When the sliding support plate 5 reaches the appointed position, the clamping between the clamping buckle 67 and the through hole 63 can enable the upper side of the scale plate 62 to display the exact position of the support plate 5, so that the cutting scissors 8 can have the function of positioning when cutting non-woven fabrics, the cutting scissors 8 are convenient for cutting the non-woven fabrics, the non-woven fabrics can be fixed in size according to requirements in the cutting process, and the qualification rate of non-woven fabric production is improved.
In order to enable the clamping plate 66 to reset in time, a limit spring 64 is fixed on the outer side wall of the clamping plate 66, one end, away from the clamping plate 66, of the limit spring 64 is fixedly connected with the upper surface of the connecting plate 61, the limit spring 64 provides an outward elastic force, the clamping plate 66 can be kept in a state of being extruded on the scale plate 62 all the time, accordingly, the supporting plate 5 can rotate in the moving process, the limit spring 64 can drive the clamping plate 66, then the clamping plate 66 drives the clamping buckle 67 to clamp the through hole 63, and accordingly, the supporting plate 5 can display the position relationship by utilizing the clamping buckle 67 and the through hole 63 when moving to a specified position, and further, the cutting knife 8 can position when cutting non-woven fabrics.
When the buckle 67 is clamped with the through hole 63, the supporting plate 5 can be fixed, and the supporting plate 5 is fixed at a designated position, so that the cutting scissors 8 cannot shake when the non-woven fabric is cut, and the cutting scissors 8 cut the non-woven fabric more accurately; the bottom lateral wall of connecting plate 61 rotates and has bolt 65, in order to make backup pad 5 can fix firmly, when rotating bolt 65, bolt 65 can pass connecting plate 61 and extrude joint board 66 to make connecting plate 61 can not take place to kick-back, and then make joint board 66 can fix, thereby can not take place to remove between messenger's buckle 67 and the through-hole 63, thereby make backup pad 5 fixed firmly, make things convenient for cutting scissors 8 to the tailorring of non-woven fabrics.
Example 2
Referring to fig. 1-4 and 6, further modifications were made based on example 1: in order to enable the transmission rod 97 to rotate around the support rod 911, the fixing device 9 capable of fixing the non-woven fabric is arranged on the outer side wall of the bottom of the support plate 5, the fixing device 9 comprises an extrusion block 99, the extrusion block 99 is located outside the cutting knife 8 and is inserted into the inner wall of the support plate 5, the extrusion block 99 is in a right-angle T shape, the inclined edge of the right-angle trapezoid of the extrusion block 99 faces upwards, the cutting knife 8 can conveniently extrude the extrusion block 99, and the clamping phenomenon cannot occur.
Wherein, the extrusion piece 99 is located the inside one end of backup pad 5 and is fixed with the fixed column 98, and the lateral wall of fixed column 98 rotates there is transfer line 97, and the fixed column 98 plays spacing effect, can make take place to rotate between transfer line 97 and the extrusion piece 99.
In addition, the inner wall of backup pad 5 is fixed with bracing piece 911, and the center department of transfer line 97 rotates the lateral wall of installing at bracing piece 911, and bracing piece 911 plays the effect of fulcrum, can make things convenient for transfer line 97's rotation, and when extrusion piece 99 receives the extrusion of cutting tool 8, extrusion piece 99 can stretch out and draw back in backup pad 5's inside to make extrusion piece 99 can drive transfer line 97 and take place to rotate around bracing piece 911 at flexible in-process.
In order to enable the extrusion block 99 to reset in time, one end of the transmission rod 97, which is far away from the fixing column 98, is fixed with the fixing block 96, the outer side wall of the transmission rod 97 is fixed with the reset spring 910, one end of the reset spring 910, which is far away from the transmission rod 97, is fixedly connected with the inner wall of the supporting plate 5, the reset spring 910 provides a pulling force inwards, when the cutting knife 8 is separated from the extrusion of the extrusion block 99, the extrusion block 99 can reset in time under the action of the reset spring 910, and therefore the cutting knife 8 can extrude the extrusion block 99 in the process of pressing each time.
In order to enable the non-woven fabrics to be fixed in the process of cutting out, the bottom lateral wall of backup pad 5 is fixed with baffle 91, the lower extreme of baffle 91 rotates has diaphragm 92, baffle 91 is used for the support to diaphragm 92, the junction of baffle 91 and diaphragm 92 is fixed with torsional spring 93, the one end and the lateral wall fixed connection of baffle 91 of torsional spring 93, the other end and the lateral wall fixed connection of diaphragm 92 of torsional spring 93, the elasticity that torsional spring 93 provided can make between baffle 91 and the diaphragm 92 be the right angle form, make things convenient for fixed block 96 to extrude diaphragm 92 at pivoted in-process.
Preferably, utilize torsional spring 93 to come fixed baffle 91 and diaphragm 92, changed tradition through spring fixed baffle 91 and diaphragm 92, on the one hand torsional spring 93 can reduce the occupation in space, on the other hand torsional spring 93 can set up in the corner that baffle 91 and diaphragm 92 are connected, when reducing space and occupy, can also effectively prevent that traditional spring from stretching out and drawing back to be zero, form triangle-shaped structure between baffle 91 and the diaphragm 92, influence the normal deflection between baffle 91 and the diaphragm 92 to the dead phenomenon of card appears between messenger's diaphragm 92 and the baffle 91, and then influence the rotation of diaphragm 92.
Wherein, the upper surface of diaphragm 92 is fixed with the fixture block 94 with fixed block 96 assorted, and fixture block 94 is right angle triangle shape, and one side that the fixture block 94 was kept away from to the diaphragm 92 is fixed with toggles the piece 95, and the hypotenuse of triangle-shaped fixture block 94 is towards the direction of fixed block 96, makes things convenient for the fixed block 96 to can drive the rotation of diaphragm 92 at pivoted in-process.
When the diaphragm 92 rotates, the diaphragm 92 can drive the stirring block 95 to extrude the non-woven fabric, the manual extrusion of the non-woven fabric in the prior art is changed, the labor is saved, the fixing effect of the non-woven fabric is better, and therefore, when the non-woven fabric is cut by the cutting knife 8, the non-woven fabric cannot deviate due to the extrusion of the stirring block 95, and the cutting position of the non-woven fabric by the cutting knife 8 is more accurate, so that the qualification rate of the non-woven fabric is improved.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.