CN111172649A - Cylinder scissors and edge folding device - Google Patents

Abstract

The invention discloses an air cylinder shear and a flanging device, which comprise a shear mounting seat, a shear assembly and a flanging unit, wherein the shear assembly comprises a shear static piece, a shear moving piece, a shear elastic piece, a moving piece pressing block, a moving piece shifting fork, a shifting fork shaft sleeve and a blade pin shaft, the flanging unit comprises a right side flanging block and a left side flanging block, the right side flanging block and the left side flanging block are respectively arranged at two sides of the shear mounting seat, the air cylinder shear further comprises an adjustable mounting seat assembly and a driving device for controlling the moving piece shifting fork to swing, the adjustable mounting seat assembly comprises a mounting seat, a front and back adjustable mounting seat and a diamond fixing screw, the mounting seat is mounted on a sley through the diamond fixing screw, and the front and back adjustable mounting seat is in matched sliding connection with the mounting seat. The device has adopted the finished product cylinder to make whole structure simpler, the leakproofness is better, can establish through mount pad, adjustable mount pad around, and the scissors mount pad and set up left, middle, right position, the suitability is strong.

Description

Cylinder scissors and edge folding device

Technical Field

The invention relates to the field of textiles, in particular to a pair of air cylinder scissors and a selvedge folding device.

Background

The traditional folding structure is split, the structure is complex, the assembly and debugging are complex, and the position of the scissor device can be adjusted only by cutting off the reed when changing the cloth width. Patent number of invention applied by this company: 201620412918.1 entitled "pneumatic scissors and selvedge tucking-in device", the pneumatic scissors and selvedge tucking-in device disclosed in the patent are fixed on a reed frame and reciprocate with the reed during working, so the position of the scissors device can be directly adjusted without cutting the reed when changing cloth width, thus greatly improving the universality of the reed. Although this patent has solved the problem that need cut the reed and just can adjust the scissors device when changing the cloth width, but the drive unit adopts self-control piston structure, because self-control piston structure parts machining is complicated, requires the precision high, and the leakproofness is not very good, requires that the wearability of part is higher, and upper and lower position is not adjustable, has not satisfied the use of left middle right unity.

Disclosure of Invention

The invention aims to provide a pair of air cylinder scissors and a selvedge folding device, wherein a finished air cylinder is adopted in the device, so that the whole structure is simpler, the sealing performance is better, the left, middle and right positions can be set through a mounting seat, a front and back adjustable mounting seat and a scissors mounting seat, and the applicability is strong.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a cylinder scissors and edge folding device, includes scissors mount pad, scissors subassembly and edge folding unit, the scissors subassembly includes the scissors stator, scissors rotor, scissors shell fragment, rotor briquetting, rotor shift fork, shift fork axle sleeve and blade round pin axle, edge folding unit includes that the right side is rolled over into the piece and the left side is rolled over into the piece, the right side is rolled over into the piece and the left side is rolled over into the piece and is located the both sides of scissors mount pad respectively, still includes adjustable mount pad subassembly and the wobbling drive arrangement of control rotor shift fork, adjustable mount pad subassembly includes mount pad, front and back adjustable mount pad and rhombus set screw, the mount pad pass through rhombus set screw and install on the going part, adjustable mount pad and mount pad cooperation sliding connection around.

Further, drive arrangement is including driving actuating cylinder and group spare, the cylinder body fixed mounting who drives actuating cylinder is on the scissors mount pad, and group spare is put through mounting hole and the telescopic link cover that drives actuating cylinder, the rotor shift fork includes fork piece, cylinder and through-hole, the top of fork piece is equipped with the rotor briquetting, and the upper portion of fork piece is equipped with the through-hole of putting with shift fork axle sleeve cover, and the lower extreme of fork piece is equipped with and dials a complex cylinder.

Further, the shifting piece comprises baffles, a connecting shaft and mounting holes, the baffles are arranged at two ends of the connecting shaft respectively, a cylindrical clamping groove is formed between the inner sides of the two baffles, and the mounting holes which are provided with internal threads and matched with the telescopic rods are formed in the axis of the connecting shaft.

Further, the driving device comprises a driving cylinder and a shifting piece, the driving cylinder comprises a cylinder body, a telescopic rod, a sleeve ring and a cylinder rotating shaft, the cylinder rotating shaft and the sleeve ring are arranged at the front end of the cylinder body, one end of the cylinder rotating shaft is movably connected with the shear base through a first bearing, the other end of the cylinder rotating shaft is fixedly connected with the sleeve ring, the sleeve ring is movably sleeved with the front end of the cylinder, and a first bearing plate is arranged on the outer side of the first bearing; the free end of the telescopic rod is in threaded connection with the shifting piece, the moving plate shifting fork comprises a fork piece, a through hole and a shifting piece mounting groove, the fork piece is 8-shaped, a moving plate pressing block is arranged at the upper end of the fork piece, the upper portion of the fork piece is provided with the through hole sleeved with a shifting fork shaft sleeve, and the lower portion of the fork piece is provided with the shifting piece mounting groove connected with the shifting piece.

Further, the shifting piece comprises a mounting hole, a mounting plate and a shifting fork driving shaft, the mounting plate is provided with the mounting hole in threaded connection with the telescopic rod of the air cylinder, the shifting fork driving shaft is arranged on one side of the mounting plate, and the shifting fork driving shaft is movably connected with the shifting piece mounting groove on the lower portion of the fork piece through a second bearing.

Furthermore, the front and back adjustable mounting seat is provided with a long slot hole convenient for front and back adjustment, the bottom is provided with a first positioning groove, the first positioning groove is matched with the mounting seat 7 and is fixed by a screw,

furthermore, the top surface of the front and back adjustable mounting seat is provided with scales convenient for position identification.

Furthermore, a positioning boss is arranged at one end of the scissors mounting seat and is matched with a second positioning groove of the front and back adjustable mounting seats for mounting.

Furthermore, one end of the scissors mounting seat on the side of the positioning boss is provided with scales which are convenient for identifying and adjusting positions.

Furthermore, one end of the blade pin shaft is provided with an external thread, the other end of the blade pin shaft is provided with a square flange, and an optical axis is arranged between the external thread and the square flange.

The invention has the beneficial effects that:

1. the device can adjust the left and right, up and down and front and back positions through the arrangement of the mounting seat, the front and back adjustable mounting seat and the scissors mounting seat, and the applicability is strong. The shifting piece is driven by the cylinder and drives the shifting fork to swing, so that the problems of non-wear resistance, short service life, complex structure, high manufacturing cost and the like of the prior structure are solved.

2. The shifting piece adopts a structure with a thin middle part and thick two ends, and a cylindrical clamping groove is formed in the middle. The cylinder is just clamped in a groove in the middle of the shifting piece, and the driving cylinder can drive the moving plate shifting fork to swing. When the shifting piece reciprocates at a high frequency, the shifting piece can rotate under the action of vibration, so that the cylindrical contact surface of the shifting piece and the moving plate shifting fork is not only fixed but also continuously replaced along the circumference along with the rotation of the shifting piece, the wear-resisting effect of parts is greatly improved, and the service life is prolonged.

Drawings

Fig. 1 is an exploded view of the installation of the present invention:

FIG. 2 is an isometric view of a first embodiment;

FIG. 3 is an isometric view of FIG. 2 from a different angle;

FIG. 4 is a state diagram illustrating the use of the first embodiment;

FIG. 5 is a schematic view of a shift fork of the first embodiment;

FIG. 6 is a schematic structural diagram of a first embodiment of a toggle member;

fig. 7 is a state view of the present invention mounted on a sley;

FIG. 8 is an exploded view of the second embodiment;

fig. 9 is a schematic view of the assembled structure of fig. 8.

In the figure:

1 scissors mount pad, 2 scissors still, 3 blade round pin axles, 4 right side book income pieces, 5 left side book income pieces, 6 adjustable mount pads around, 61 first positioning groove, 62 second positioning groove, 7 mount pads, 8 rhombus set screw, 9 drive actuating cylinder, 91 cylinder body, 92 telescopic link, 93 cylinder pivot, 10 rotor plate shift forks, 101 fork piece, 102 cylinder, 103 through-hole, 104 plectrum mounting groove, 11 rotor plate briquetting, 12 scissors shell fragment, 13 scissors rotor plate, 14 shift fork axle sleeve, 15 plectrums, 151 baffles, 152 connecting axles, 153 mounting holes, 154 mounting panel, 155 shift fork drive shaft, 16 gas circuit A, 17 gas circuit B, 18 gas circuit C, 19 gas circuit D, 20 woofs, 21 first bearing, 22 second bearing, 23 first bearing plate.

Detailed Description

The cylinder scissors and the edge folding device of the invention are explained in detail below with reference to the attached drawings.

As shown in fig. 1 to 6, the air cylinder scissors and the edge folding device provided by the invention comprise a scissors mounting seat 1, a scissors assembly and an edge folding unit, wherein the scissors assembly comprises a scissors stator 2, a scissors rotor 13, a scissors elastic sheet 12, a rotor pressing block 11, a rotor shifting fork 10, a shifting fork shaft sleeve 14 and a blade pin shaft 3, the edge folding unit comprises a right side folding block 4 and a left side folding block 5, the right side folding block 4 and the left side folding block 5 are respectively arranged on two sides of the scissors mounting seat 1, the edge folding device further comprises an adjustable mounting seat assembly and a driving device for controlling the rotor shifting fork to swing, the adjustable mounting seat assembly comprises a mounting seat 7, a front and back adjustable mounting seat 6 and a diamond-shaped fixing screw 8, the mounting seat 7 is mounted on a sley through the diamond-shaped fixing screw 8, and the front and back adjustable mounting seat 6 and the mounting seat 7 are in a matching sliding connection. The front and back adjustable mounting base 6 is provided with a long slot hole convenient for front and back adjustment, the bottom is provided with a first positioning groove 61, the first positioning groove 61 and the mounting base 7 are matched and mounted through screws, and the top surface of the front and back adjustable mounting base 6 is provided with scales convenient for position identification. One end of the scissors mounting seat 1 is provided with a positioning boss which is matched and mounted with the second positioning groove 62 of the front and back adjustable mounting seat 6. And scales convenient for identifying and adjusting positions are arranged at one end of the side of the positioning boss of the scissors mounting seat 1. The left, right, up and down, front and back positions are adjusted through the mounting seat 7, the front and back adjustable mounting seat 6 and the scissors mounting seat 1. The left folding block 5 and the right folding block 4 are respectively arranged at two sides of the scissors mounting seat 1, and the left folding block 5 and the right folding block 4 are bilaterally symmetrical by taking the cutting edge of the middle scissors as an axis.

One end of the blade pin shaft 3 is provided with an external thread, the other end of the blade pin shaft is provided with a square flange, and an optical axis is arranged between the external thread and the square flange. The blade pin shaft 3 penetrates through the pin hole of the scissors mounting seat 1, and the square groove of the scissors mounting seat 1 and the square flange of the blade pin shaft 3 are used for positioning. The scissors stator 2 is penetrated on the blade pin shaft 3 and is attached to the side plane of the scissors mounting seat 1. The movable blade shifting fork 10, the scissors elastic sheet 12 and the scissors movable blade 13 sequentially penetrate through the shifting fork shaft sleeve 14, as shown in figure 1, the scissors movable blade 13 is tightly attached to the scissors static blade 2 through the elasticity of the scissors elastic sheet 12, and the scissors movable blade belongs to elastic contact. The moving piece pressing block 11 is fixed on the upper side of the moving piece shifting fork 10, and the scissor moving piece 13 is prevented from sliding upwards when the yarns are sheared.

Example one

As shown in fig. 2 and 4, the driving device comprises a driving cylinder 9 and a shifting member 15, wherein a cylinder body of the driving cylinder is fixedly mounted on the scissors mounting seat 1, and the shifting member 15 is sleeved with a telescopic rod of the driving cylinder through a mounting hole and then fastened by a nut. The moving plate shifting fork 10 comprises a fork piece 101, a cylinder 102 and a through hole 103, a moving plate pressing block 11 is arranged at the top end of the fork piece 101, the through hole sleeved with a shifting fork shaft sleeve is arranged at the upper part of the fork piece, and the cylinder 102 matched with a shifting piece is arranged at the lower end of the fork piece 101. The shifting piece comprises a baffle 151, a connecting shaft 152 and a mounting hole 153, the baffle 151 is arranged at each of two ends of the connecting shaft, a cylindrical body 102 clamping groove is formed between the inner sides of the two baffles, and the mounting hole 153 with internal threads and matched with the telescopic rod is arranged on the axis of the connecting shaft 152. As shown in fig. 6, a structure with a thin middle part and thick two ends is adopted, the section is a cylinder with a concave section, and the cylinder 102 is just clamped in a groove at the middle of the shifting piece 15, so that the driving cylinder 9 can drive the moving plate shifting fork 10 to swing. The thick middle connecting shaft of the baffle at the two ends of the shifting piece 15 is thin, a cylinder is obtained by rotating the lower side transverse line for 360 degrees in a concave shape, a mounting hole is processed in the center of the cylinder shaft, and threads are arranged in the mounting hole.

When the cylinder drives the high-frequency reciprocating action of the shifting piece 15 in the embodiment, the shifting piece 15 can rotate under the action of vibration, so that the contact surface of the shifting piece 15 and the cylinder of the moving plate shifting fork 10 is not only fixed but also continuously replaced along the circumference along with the rotation of the shifting piece 15, the wear-resisting effect of parts is greatly improved, and the service life is prolonged.

Example two

As shown in fig. 8 and 9, the driving device includes a driving cylinder 9 and a shifting member 15, the driving cylinder 9 includes a cylinder body 91, an expansion rod 92 and a cylinder rotating shaft 93, the front end of the cylinder body 91 is provided with the cylinder rotating shaft 93, one end of the cylinder rotating shaft is movably connected with the scissors mounting seat 1 through a first bearing 21, and the other end of the cylinder rotating shaft 93 is connected with the front end of the cylinder. The outside of first bearing 21 is equipped with first bearing clamp plate 23, and in the stroke that the telescopic link stretches out, because the swing of action plate shift fork production pitch arc, in order to prevent that the cylinder from receiving the force of non-edge axis when the action, the crooked unable normal work of atress makes the telescopic link can carry out the action unanimous with action plate shift fork swing radian, and the cylinder body of cylinder also can carry out appropriate rotation through cylinder pivot 93. The free end of the telescopic rod is in threaded connection with the shifting piece and then is fastened through a nut. The moving plate shifting fork comprises a 101 fork piece, a 103 through hole and a 104 shifting piece mounting groove, the fork piece is 8-shaped, a moving plate pressing block 11 is arranged at the upper end of the fork piece, the upper portion of the fork piece is provided with a through hole sleeved with a shifting fork shaft sleeve, and the lower portion of the fork piece is provided with a shifting piece mounting groove connected with a shifting piece.

The shifting piece comprises 153 installation holes, 154 installation plates and 155 shifting fork driving shafts, the installation holes which are in threaded connection with the telescopic rods of the air cylinders are formed in the installation plates, the shifting fork driving shafts are arranged on one sides of the installation plates, and the shifting fork driving shafts are movably connected with shifting piece installation grooves in the lower portions of the fork pieces through second bearings.

The cylinder pivot is inlayed through first bearing and is fixed in the scissors installation, and the first bearing outside is covered fixedly by first bearing clamp plate, and the cylinder pivot is installed on first bearing, and the axle head processing threaded hole that the cylinder pivot penetrated first bearing utilizes gasket and screw to fix the cylinder pivot on first bearing, and actuating cylinder installs in the cylinder pivot, utilizes the nut back fastening to fix. The second bearing is embedded and fixed on the shifting fork, the shifting fork driving shaft penetrates through the second bearing and is installed on the shifting fork, and meanwhile, the shifting fork driving shaft penetrates through the cylinder rod and is fixed through the nut back. The structure is characterized in that the driving bearing can swing when driving the moving plate shifting fork to reciprocate, the structural modes of the two bearings remove the influence of sliding friction, and the hidden danger of part abrasion is reduced by utilizing the rolling swing of the bearings.

The cylinder operation flow in the first embodiment and the second embodiment: air channel A of the driving air cylinder 9 is filled with air, air channel B is filled with air → the driving air cylinder 9 rod is contracted, the scissor stroke is driven to be opened → the weft yarn penetrates into the folding block, the scissor edge is middle → air channel B of the driving air cylinder 9 is filled with air, air channel A is filled with air → the driving air cylinder 9 rod is extended, the scissor is driven to be closed, the weft yarn is cut, air channels C of the left folding block 5 and the right folding block 4 are filled with air to blow the cut weft yarn head into the cloth edge, and the weft yarn folding action is completed.

At present, customers in the market require that two cloth surfaces are required to be woven on one loom, and the cloth edges are required to be folded smooth edges. The device can be used for installation on the left side, the middle side and the right side. When the structure is used for the left cloth edge, the right folding block 4 is only needed to be arranged on the right side of the scissors mounting seat 1; when the structure is used for middle cloth edges, the scissors mounting seat 1 is required to be simultaneously provided with the left side folding-in block 5 and the right side folding-in block 4; when this structure was used in right side selvedge, only need on scissors mount pad 1 at the right side installation left side break-in piece 5 can.

The driving mode of the invention adopts the air cylinder to replace the prior traditional structure and the complex mechanical transmission thereof and also replace a self-made non-standard air cylinder structure, and the structure has the advantages of no wear resistance, serious air leakage and high manufacturing cost. The device directly adopts the finished product cylinder, has simple structure, good sealing performance, no air leakage and remarkable energy-saving effect.

While the foregoing is directed to the principles of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.

Other technical features than those described in the specification are known to those skilled in the art.

Claims (10)

1. The utility model provides a cylinder scissors and tuck limit device, includes scissors mount pad, scissors subassembly and tuck limit unit, the scissors subassembly includes the static piece of scissors, scissors rotor, scissors shell fragment, rotor briquetting, rotor shift fork, shift fork axle sleeve and blade round pin axle, the tuck limit unit includes that the right side is tucked into the piece and the left side is tucked into the piece, the right side is tucked into the piece and the left side is tucked into the piece and is located the both sides of scissors mount pad respectively, characterized by still includes adjustable mount pad subassembly and control rotor shift fork wobbling drive arrangement, adjustable mount pad subassembly includes mount pad 7, front and back adjustable mount pad and rhombus set screw, the mount pad pass through rhombus set screw and install on the going part, adjustable mount pad and mount pad cooperation sliding connection around.

2. The cylinder shear and tuck-in selvage device as claimed in claim 1, wherein the driving device comprises a driving cylinder and a poking member, the cylinder body of the driving cylinder is fixedly mounted on the shear mounting seat, the poking member is sleeved with the telescopic rod of the driving cylinder through a mounting hole, the moving plate shifting fork comprises a fork piece, a cylinder and a through hole, the top end of the fork piece is provided with a moving plate pressing block, the upper part of the fork piece is provided with the through hole sleeved with a shifting fork shaft sleeve, and the lower end of the fork piece is provided with the cylinder matched with the poking member.

3. The cylinder scissors and edge folding device as claimed in claim 2, wherein the poking member comprises a baffle, a connecting shaft and a mounting hole, the two ends of the connecting shaft are respectively provided with the baffle, a cylindrical clamping groove is formed between the inner sides of the two baffles, and the axis of the connecting shaft is provided with the mounting hole with internal threads matched with the telescopic rod.

4. The air cylinder scissors and edge folding device as claimed in claim 1, wherein the driving device comprises a driving air cylinder and a shifting member, the driving air cylinder comprises a cylinder body, a telescopic rod and an air cylinder rotating shaft, the front end of the cylinder body is provided with the air cylinder rotating shaft, one end of the air cylinder rotating shaft is movably connected with the scissors base through a first bearing, the other end of the air cylinder rotating shaft is connected with the front end of the air cylinder, and the outer side of the first bearing is provided with a first bearing plate; the free end of the telescopic rod is in threaded connection with the shifting piece, the moving plate shifting fork comprises a fork piece, a through hole and a shifting piece mounting groove, the fork piece is 8-shaped, a moving plate pressing block is arranged at the upper end of the fork piece, the upper portion of the fork piece is provided with the through hole sleeved with a shifting fork shaft sleeve, and the lower portion of the fork piece is provided with the shifting piece mounting groove connected with the shifting piece.

5. The cylinder shear and tuck-in selvage device as claimed in claim 4, wherein the poking member comprises a mounting hole, a mounting plate and a shift fork driving shaft, the mounting plate is provided with a mounting hole in threaded connection with the telescopic rod of the cylinder, one side of the mounting plate is provided with a shift fork driving shaft, and the shift fork driving shaft is movably connected with the poking member mounting groove at the lower part of the fork piece through a second bearing.

6. The cylinder scissors and tuck-in selvage device as claimed in claim 1, wherein the front and back adjustable mounting base is opened with a long slot hole for front and back adjustment, the bottom is provided with a first positioning groove, the first positioning groove is matched with the mounting base 7 and is fixed by a screw.

7. The cylinder shear and tuck-in selvage apparatus of claim 6, wherein the top surface of the front and rear adjustable mounting seats is provided with a scale for easy position recognition.

8. The cylinder shear and tucked-in selvage apparatus as claimed in claim 1, wherein one end of the shear mounting base is provided with a positioning boss which is fitted with a second positioning groove of the front and rear adjustable mounting base.

9. The cylinder shears and tucked-in selvage apparatus of claim 8, wherein the scissors mounting seat has a scale at one end of the positioning boss for easy recognition of the adjustment position.

10. The cylinder shear and tuck-in selvage apparatus of claim 1, wherein the blade pin has an external thread at one end and a square flange at the other end, and an optical axis is formed between the external thread and the square flange.

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