CN111485317A

CN111485317A - Multi-width spinning machine

Info

Publication number: CN111485317A
Application number: CN202010282435.5A
Authority: CN
Inventors: 洪束珍
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-12
Filing date: 2020-04-12
Publication date: 2020-08-04

Abstract

The invention discloses a multi-frame textile machine, which comprises a textile box, a thread weaving cabinet, a base and a control panel, wherein the textile box comprises a textile board, a cutting device, a guide roller and a cloth roller, the cutting device comprises a moving cavity, a screw rod, a moving block and a positioning board, the moving block comprises a limiting cylinder, a rotating ball, a biting ring and a cutter, the guide roller comprises a pressure spring, a positioning block and a limiting block, the limiting block comprises a fixed bolt, a rotating shaft and a cloth guide groove, the rotating shaft comprises a fixed shaft and a lifting shaft, the fixed shaft comprises the cloth guide cylinder and an electrostatic removing brush, the upper guide roller and the lower guide roller are tightly attached together under the elastic action of the pressure spring, the positioning block in the middle of the guide roller moves along with the positioning board, the lifting shaft and the fixed shaft are extruded when the positioning block moves, so as to adjust the width of the cloth guide groove, the electrostatic removing brush arranged, so as to prevent the cotton cloth from adsorbing the dust in the textile box to influence the use of the subsequent cotton cloth.

Description

Multi-width spinning machine

Technical Field

The invention relates to the field of spinning, in particular to a multi-frame spinning machine.

Background

The weaving machine is a mechanical equipment that weaves the braided wire into the cloth through weaving processing back, and a plurality of cloths of a tractor can be produced simultaneously at a weaving machine, avoids leading to needing different weaving machines to produce because of producing the demand difference.

At present, when a plurality of spinning machines with different specifications are used for producing cotton cloth, because a cutter continuously rubs with the cotton cloth, static electricity is generated on the cotton cloth when weather is dry, so that dust in the spinning machines is adsorbed by the cotton cloth, and the use of the subsequent cotton cloth is influenced.

Disclosure of Invention

The invention provides a multi-frame spinning machine to solve the technical problem, and aims to overcome the defect that when cotton cloth with different specifications is produced by the conventional multi-frame spinning machine, due to the fact that a cutter continuously rubs the cotton cloth, static electricity is generated on the cotton cloth when weather is dry, dust in the spinning machine is adsorbed by the cotton cloth, and the use of the subsequent cotton cloth is influenced.

The invention is realized by the following technical scheme: its structure includes weaving case, knitline cabinet, base, control panel, weaving case passes through welded connection in the base upper surface, knitline cabinet bottom surface laminating in weaving case upper surface, control panel inlays admittedly in weaving case one side, weaving case and bag include the weaving board, cut device, deflector roll, cloth roller, the weaving board passes through bolted connection in weaving incasement portion, cut the device through clearance connection in weaving incasement portion, the deflector roll cooperation is installed in cutting device one side, the cloth roller passes through clearance connection in weaving incasement wall, it parallels each other with the weaving board to cut the device, the cloth roller has many.

Furthermore, the cutting device comprises a moving cavity, a screw rod, a moving block and a positioning plate, wherein the moving cavity is embedded in the cutting device, the screw rod penetrates through the moving cavity, the moving block is installed around the screw rod in a matched mode, the positioning plate is embedded and fixed on one side of the moving block, the screw rod is controlled by a motor, and the moving block is connected to the inner wall of the moving cavity through a gap.

Furthermore, the moving block comprises a limiting cylinder, a rotating ball, a biting ring and a cutter, the limiting cylinder is tightly attached to the inner wall of the moving block, the rotating ball is connected to the inner wall of the limiting cylinder through a gap, the biting ring is installed on the inner side of the rotating ball in a matched mode, the cutter is connected to the periphery of the limiting cylinder through welding, the biting ring is meshed with the screw, and the diameter of the cutter is larger than the distance between two opposite angles of the moving block.

Further say, the deflector roll includes pressure spring, locating piece, stopper, the pressure spring passes through welded connection in inner wall about the weaving case, the locating piece nestification is at the deflector roll surface, the stopper is installed at the pressure spring terminally, the pressure spring has two sets ofly and arranges the deflector roll both ends in with the stopper, the stopper is on same axis with the deflector roll, the locating piece is connected with the locating plate through the welding.

Furthermore, the stopper includes gim peg, pivot, leads the cloth groove, the gim peg inlays and fixes in stopper one side, the pivot is passed through the gap connection and is inboard in the stopper, lead the cloth groove and inlay and locate the pivot top, the pivot has the locating piece through mid-mounting, the pivot has two just two upper and lower pivots to turn to opposite.

Furthermore, the rotating shaft comprises a fixed shaft and a lifting shaft, the fixed shaft is arranged on the surface of the rotating shaft, the lifting shaft is arranged on one side of the fixed shaft in a matching mode, the fixed shaft, the lifting shaft and the rotating shaft are on the same axis, and the fixed shaft can penetrate into the lifting shaft.

Furthermore, the fixed shaft comprises a cloth guide cylinder and a static removing brush, the cloth guide cylinder is arranged on the surface of the fixed shaft, the static removing brush is connected to one side of the fixed shaft through welding and is embedded around the rotating shaft, the tail end of the static removing brush is tightly attached to the surface of the cloth guide cylinder, and the static removing brush is obliquely bent in the opposite direction of the rotation of the cloth guide cylinder.

Advantageous effects

Compared with the prior art, the multi-frame spinning machine has the following advantages that:

1. the invention has the beneficial effects that: the weaving yarn is processed into cotton cloth through the weaving yarn cabinet, the screw rod is enabled to rotate by starting the screw rod, and the movable block is driven to move while the screw rod is rotated due to the fact that the ring is meshed with the screw rod, so that the position of the cutter is changed, the cutter can cut the cotton cloth, and multiple cotton cloths are stored while the cloth rolling rollers are beneficial to storage.

2. The invention has the beneficial effects that: under the elastic action of the pressure spring, the upper guide roller and the lower guide roller are tightly attached together, the positioning block in the middle of the guide rollers moves along with the positioning plate, the positioning block extrudes the telescopic shaft and the fixing shaft when moving, so that the width of the cloth guide groove is adjusted, the static electricity on the cotton cloth can be led out by the static electricity removing brushes arranged around the rotating shaft, the cotton cloth on the cloth roller is prevented from having static electricity, and the dust in the textile box is prevented from being adsorbed by the cotton cloth to influence the use of the subsequent cotton cloth.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view of a multi-loom of the present invention.

FIG. 2 is a schematic view of the top view of the interior of the inventive textile cabinet.

Fig. 3 is an enlarged internal view of the slitting device according to the present invention.

Fig. 4 is a side view, a cross-sectional enlarged structure of the moving block of the present invention.

Fig. 5 is a side view enlarged structure view of the guide roller of the present invention.

Fig. 6 is an enlarged front view of the guide roller according to the present invention.

FIG. 7 is an enlarged view of the hinge of the present invention.

Fig. 8 is a cross-sectional enlarged structural schematic view of the fixing shaft of the present invention.

In the figure: the device comprises a textile box 1, a knitting wire cabinet 2, a base 3, a control panel 4, a textile board 11, a slitting device 12, a guide roller 13, a cloth roller 14, a moving cavity a1, a screw a2, a moving block a3, a positioning board a4, a limiting cylinder a31, a rotary bead a32, a snap ring a33, a cutter a34, a pressure spring b1, a positioning block b2, a limiting block b3, a fixing bolt b31, a rotating shaft b32, a cloth guide groove b33, a fixing shaft w1, a lifting and contracting shaft w2, a cloth guide cylinder w11 and an electrostatic removal brush w 12.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example 1:

please refer to fig. 1-4:

a many weaving machines of a tractor, its structure includes weaving case 1, the cabinet of knitting a thread 2, base 3, control panel 4, weaving case 1 is through welded connection in base 3 upper surface, 2 bottom surfaces of the cabinet of knitting a thread are laminated in weaving 1 upper surface of case, control panel 4 inlays admittedly in weaving 1 one side of case, weaving case 1 includes weaving board 11, cuts device 12, deflector roll 13, cloth roller 14, weaving board 11 passes through bolted connection in weaving 1 inside of case, cut device 12 through clearance connection in weaving 1 inside of case, deflector roll 13 cooperation is installed in cutting device 12 one side, cloth roller 14 passes through clearance connection in weaving 1 inner wall of case, it is parallel to each other with weaving board 11 to cut device 12, cloth roller 14 has many, does benefit to and deposits many cotton simultaneously.

In the drawing, the slitting device 12 comprises a moving cavity a1, a screw a2, a moving block a3 and a positioning plate a4, the moving cavity a1 is embedded in the slitting device 12, the screw a2 penetrates through the moving cavity a1, the moving block a3 is installed around the screw a2 in a matching mode, the positioning plate a4 is embedded in one side of the moving block a3, the screw a2 is controlled by a motor, and the moving block a3 is connected to the inner wall of the moving cavity a1 through a gap, so that the moving block a3 can move on the screw a 2.

In the figure, the moving block a3 comprises a limiting cylinder a31, a rotating ball a32, a biting ring a33 and a cutter a34, the limiting cylinder a31 is tightly attached to the inner wall of the moving block a3, the rotating ball a32 is connected to the inner wall of the limiting cylinder a31 through a gap, the biting ring a33 is installed on the inner side of the rotating ball a32 in a matching mode, the cutter a34 is connected to the periphery of the limiting cylinder a31 through welding, the biting ring a33 is meshed with the screw a2, the diameter of the cutter a34 is larger than the distance between two opposite corners of the moving block a3, and the cutter a34 can extend out of the slitting device 12 to slit cotton cloth.

The specific principle of the embodiment is as follows: through knitting cabinet 2 with the braided wire processing into the cotton, then to cutting device 12 removal on weaving board 11, start screw a2 through control panel 4 this moment, make screw a2 at cutting device 12 internal rotation, because sting ring a33 and screw a2 intermeshing, and sting ring a33 and movable block a3 on same axis, make screw a2 pivoted drive movable block a3 simultaneously and remove, thereby change cutter a 34's position, make cutter a34 can stretch out cutting device 12 and cut the cotton, because cloth roller 14 has many, do benefit to and deposit many cotton simultaneously.

Example 2:

please refer to fig. 5-8:

in the figure, deflector roll 13 includes pressure spring b1, locating piece b2, stopper b3, pressure spring b1 passes through welded connection in weaving case 1 upper and lower inner wall, locating piece b2 nests at deflector roll 13 surface, stopper b3 is installed at pressure spring b1 end, pressure spring b1 and stopper b3 have two sets ofly and arrange deflector roll 13 both ends in, stopper b3 and deflector roll 13 are on same axis, locating piece b2 is connected with locating plate a4 through the welding, do benefit to and carry out the deflector roll with the cotton thread of cutting.

In the figure, stopper b3 includes gim peg b31, pivot b32, cloth guide groove b33, gim peg b31 inlays in stopper b3 one side, pivot b32 passes through the gap connection and is inboard in stopper b3, cloth guide groove b33 inlays and locates pivot b32 top, pivot b32 has locating piece b2 through mid-mounting, pivot b32 has two and two upper and lower pivot b32 opposite directions, does benefit to the passing through of cotton.

In the drawing, the rotating shaft b32 includes a fixed shaft w1 and a lifting shaft w2, the fixed shaft w1 is arranged on the surface of the rotating shaft b32, the lifting shaft w2 is installed on one side of the fixed shaft w1 in a matching manner, the fixed shaft w1, the lifting shaft w2 and the rotating shaft b32 are on the same axis, and the fixed shaft w1 can penetrate through the lifting shaft w2, so that the width of the cloth guide groove b33 on the rotating shaft b32 can be adjusted.

In the drawing, fixed axle w1 includes fabric guide tube w11, destaticizing brush w12, fixed axle w1 surface is located to fabric guide tube w11, destaticizing brush w12 is connected in fixed axle w1 one side and is inlayed around pivot b32 through the welding, destaticizing brush w12 tip hugs closely fabric guide tube w11 surface, destaticizing brush w12 is crooked to the opposite direction slope of fabric guide tube w11 pivoted, avoids scraping the cotton and can derive the static on the cotton simultaneously.

The specific principle of the embodiment is as follows: a pressure spring b1 and a limiting block b3 are arranged on two sides of the guide roller 13, under the action of the elastic force of the pressure spring b1, the limiting block b3 tightly clings the upper guide roller 13 and the lower guide roller 13 together, at the moment, a positioning block b2 in the middle of the guide roller 13 moves along with a positioning plate a4, at the moment, a positioning block b2 extrudes a lifting shaft w2 and a fixing shaft w1, so that the width of a cloth guide groove b33 on the rotating shaft b32 is adjusted, at the moment, a rotating shaft b32 on the inner side of the limiting block b3 is reversely rotated to facilitate passing of cotton cloth, and meanwhile, static removing brushes w12 arranged around the rotating shaft b32 can guide static electricity on the cotton cloth to prevent the cotton cloth on the cloth roller 14 from carrying static electricity so as to prevent the cotton cloth from adsorbing dust in the textile box 1 to influence on use of subsequent cotton cloth.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

Claims

1. A quick-witted many weaving machines, its structure includes weaving case (1), knitline cabinet (2), base (3), control panel (4), weaving case (1) is through welded connection in base (3) upper surface, knitline cabinet (2) bottom surface is laminated in weaving case (1) upper surface, control panel (4) are embedded in weaving case (1) one side, its characterized in that:

weaving case (1) is including weaving board (11), cut device (12), deflector roll (13), cloth roller (14), it is inside in weaving case (1) that weaving board (11) passes through bolted connection, cut device (12) and pass through clearance connection inside weaving case (1), deflector roll (13) cooperation is installed in cutting device (12) one side, cloth roller (14) pass through clearance connection in weaving case (1) inner wall.

2. The multiple-loom of claim 1, wherein: the cutting device (12) comprises a moving cavity (a1), a screw rod (a2), a moving block (a3) and a positioning plate (a4), the moving cavity (a1) is embedded in the cutting device (12), the screw rod (a2) penetrates through the moving cavity (a1), the moving block (a3) is installed on the periphery of the screw rod (a2) in a matched mode, and the positioning plate (a4) is embedded and fixed on one side of the moving block (a 3).

3. The multiple-loom of claim 2, wherein: the moving block (a3) comprises a limiting cylinder (a31), a rotating ball (a32), a biting ring (a33) and a cutter (a34), the limiting cylinder (a31) is tightly attached to the inner wall of the moving block (a3), the rotating ball (a32) is connected to the inner wall of the limiting cylinder (a31) through a gap, the biting ring (a33) is installed on the inner side of the rotating ball (a32) in a matched mode, and the cutter (a34) is connected to the periphery of the limiting cylinder (a31) through welding.

4. The multiple-loom of claim 1, wherein: deflector roll (13) are including pressure spring (b1), locating piece (b2), stopper (b3), inner wall about pressure spring (b1) pass through welded connection in weaving case (1), locating piece (b2) nestification is in deflector roll (13) surface, stopper (b3) are installed at pressure spring (b1) terminal.

5. The multiple-loom of claim 4, wherein: stopper (b3) include gim peg (b31), pivot (b32), lead cloth groove (b33), gim peg (b31) are inlayed in stopper (b3) one side, pivot (b32) are inboard through gap connection in stopper (b3), lead cloth groove (b33) and inlay and locate pivot (b32) top.

6. The multiple-loom of claim 5, wherein: the rotating shaft (b32) comprises a fixed shaft (w1) and a lifting shaft (w2), the fixed shaft (w1) is arranged on the surface of the rotating shaft (b32), the lifting shaft (w2) is installed on one side of the fixed shaft (w1) in a matched mode, and the fixed shaft (w1), the lifting shaft (w2) and the rotating shaft (b32) are on the same axis.

7. The multiple-loom of claim 6, wherein: the fixed shaft (w1) comprises a cloth guide cylinder (w11) and a static removing brush (w12), the cloth guide cylinder (w11) is arranged on the surface of the fixed shaft (w1), and the static removing brush (w12) is connected to one side of the fixed shaft (w1) through welding and is embedded around the rotating shaft (b 32).