CN106978676B - Feeding mechanism capable of inputting multiple woven belts simultaneously - Google Patents

Abstract

The invention discloses a feeding mechanism for simultaneously inputting a plurality of woven tapes, which comprises a plurality of woven tape input guide rails arranged side by side, wherein each woven tape input guide rail is provided with a woven tape presser foot capable of moving up and down and a driving mechanism for driving the woven tape presser foot to move linearly along the woven tape input guide rails. The invention drives the mesh belt presser foot to move through the driving mechanism, so that the mesh belt moves and is output in the mesh belt input guide rail, has the advantages of compact structure and small volume, can realize the parallel output control of a plurality of mesh belts, and improves the output efficiency of the mesh belts.

Description

Feeding mechanism capable of inputting multiple woven belts simultaneously

Technical Field

The invention relates to a braid sewing machine, in particular to a feeding mechanism for simultaneously inputting a plurality of braids.

Background

In the field of footwear, headwear, apparel and home furnishing, it is common to sew some webbing loops on the product. For example, a mesh belt ring is sewed on the upper for the shoelace to be threaded through; the mesh belt ring is sewn on the curtain, so that the curtain can be conveniently hung; the braid ring is sewed on the hat brim to facilitate the wearing of the decorative ribbon.

In the existing ribbon loop processing, a worker manually pulls out a coiled ribbon, cuts the ribbon into ribbon sections with equal length, and then bends the head of the ribbon and sews and joins the ribbon with a ribbon body to form a ribbon loop. Because all manual operation is, processing quality can't be guaranteed to the human cost is high, and machining efficiency is low.

The invention patent of patent number 2013107206049 discloses a ribbon loom, which comprises a material guiding mechanism, a material stacking mechanism and a feeding mechanism, wherein the material stacking mechanism comprises a material stacking support plate fixedly arranged, a material pressing piece capable of moving up and down is arranged above the material stacking support plate, a material folding cylinder capable of moving up and down is arranged on one side of the material stacking support plate, a driving rod of the material folding cylinder is connected with a material folding plate capable of moving horizontally, and the material pressing piece and the material folding cylinder are driven by the material stacking cylinder to move up and down. This inkle loom is cut into the meshbelt section of settlement length through guide mechanism is automatic with the meshbelt to export and fold material mechanism, fold the automatic constitution meshbelt ring of meshbelt section through folding material mechanism, feeding mechanism pushes out the sewing position with the last meshbelt ring that sews, and send the meshbelt ring that just has folded to sewing position department simultaneously and sew fixedly, realized that the automation of meshbelt is defeated the material, blank, folding, blowing and sewing, but this inkle loom can only carry at a work flow, folding, sewing a meshbelt. The ribbon loom disclosed by the patent cannot realize the simultaneous conveying, folding and feeding of a plurality of ribbons, so that the processing efficiency is lower.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a feeding mechanism for simultaneously inputting multiple webbings, so as to improve the feeding efficiency of the webbings and reduce the volume of the feeding mechanism.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a feed mechanism of a plurality of meshbelts of simultaneous input, includes a plurality of meshbelt input guide rails side by side, and every meshbelt input guide rail is equipped with a meshbelt presser foot that can move from top to bottom to and a drive mechanism who drives the meshbelt presser foot along meshbelt input guide rail linear motion.

In order to optimize the technical scheme, the invention also comprises the following improved technical scheme.

The braid presser foot comprises a presser foot mounting seat and a presser foot piece which is rotationally connected with the presser foot mounting seat; the presser foot mounting seat is provided with a presser foot cylinder which drives the presser foot sheet to apply pressure to the woven belt in the woven belt input guide rail.

The presser foot mounting seat is provided with an elastic reset component which applies upward acting force to the presser foot sheet.

The elastic reset assembly comprises a reset mounting plate fixed on the presser foot mounting seat, a push rod arranged on the reset mounting plate and a reset spring driving the push rod to move upwards; the top end of the ejector rod is matched with the bottom of the material pressing sheet.

The driving mechanism comprises a fixed mounting plate; the fixed mounting plate is provided with a feeding driving rod capable of moving linearly and a feeding cylinder for driving the feeding driving rod to move linearly.

The feeding driving rod is provided with a rack, and the fixed mounting plate is provided with a transmission gear matched with the rack; the transmission gear is provided with a synchronous wheel which is coaxially linked, and a synchronous belt which drives the synchronous wheel to rotate is arranged on the fixed mounting plate; the piston rod of the feeding cylinder is fixedly connected with the synchronous belt through a connecting plate.

The feeding mechanism is provided with a feeding mounting seat, a plurality of adjusting rods arranged side by side are arranged in the feeding mounting seat, sliding chutes are formed in the adjusting rods, connecting rods arranged in a diamond shape are arranged among the adjusting rods, and the connecting rods are movably connected with the sliding chutes in the adjusting rods through pin shafts; the mesh belt input guide rail is correspondingly arranged on the adjusting rod.

The feeding mounting seat is provided with a screw for adjusting the position of the adjusting rod at the outermost side.

The output port of the mesh belt input guide rail is provided with a cutter component.

Compared with the prior art, the feeding mechanism capable of inputting the plurality of woven belts simultaneously drives the woven belt presser foot to move through the driving mechanism, so that the woven belts move and output in the woven belt input guide rail. Each driving mechanism can independently control the working state to determine whether the corresponding mesh belt input guide rail outputs the mesh belt or not, and can also independently control the output length of the mesh belt by adjusting the movement stroke.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is an exploded view of the feeder mount of fig. 1.

Fig. 3 is an assembled and exploded view of the webbing presser foot of fig. 1.

Fig. 4 is a schematic perspective view of the driving mechanism of fig. 1.

Fig. 5 is an exploded view of one of the stationary mounting plates of fig. 4.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings.

Fig. 1 to 5 are schematic structural views of the present invention.

Wherein the reference numerals are: the device comprises a mesh belt input guide rail 1, a presser foot mounting seat 2, a presser foot 21, a presser foot cylinder 22, a reset mounting plate 23, an ejector rod 24, a reset spring 25, a fixed mounting plate 3, a feeding driving rod 31, a rack 31a, a feeding cylinder 32, a transmission gear 33, a synchronizing wheel 34, a synchronous belt 35, a connecting plate 36, a feeding guide rail 37, an auxiliary synchronizing wheel 38, a feeding mounting seat 4, an adjusting rod 41, a sliding groove 41a, a connecting rod 42, a pin shaft 43 and a lifting cylinder 5.

The invention discloses a feeding mechanism capable of inputting a plurality of woven tapes simultaneously, which comprises a plurality of woven tape input guide rails 1 which are arranged side by side, wherein each woven tape input guide rail 1 is provided with a woven tape presser foot capable of moving up and down and a driving mechanism for driving the woven tape presser foot to move linearly along the woven tape input guide rails 1.

The ribbon presser comprises a presser foot mounting seat 2 and a presser foot piece 21 which is rotatably connected with the presser foot mounting seat 2. The presser foot mounting base 2 is provided with a presser foot cylinder 22 for driving the presser foot piece 21 to apply pressure to the webbing in the webbing input guide rail 1.

The presser foot mounting base 2 is provided with an elastic reset component for applying upward acting force to the presser foot piece 21.

The elastic reset assembly comprises a reset mounting plate 23 fixed on the presser foot mounting seat 2, a push rod 24 arranged on the reset mounting plate 23, and a reset spring 25 driving the push rod 24 to move upwards. The top end of the top rod 24 is matched with the bottom of the material pressing sheet 21.

During feeding, the presser foot cylinder 22 controls the presser foot piece 21 to press the woven belt in the woven belt input guide rail 1, and the driving mechanism drives the woven belt presser foot to move linearly, so that the woven belt is conveyed for a certain length in the woven belt input guide rail 1. After the feeding is finished, the presser foot cylinder 22 stops pressing, the ribbon presser foot is lifted up from the ribbon input guide rail 1, and the driving mechanism drives the ribbon presser foot to reset.

In a preferred embodiment, the feeding mechanism is provided with six mesh belt input guide rails 1, and the mesh belt in each mesh belt input guide rail 1 can independently control the feeding length through the moving distance of the mesh belt presser foot.

The driving mechanism comprises a fixed mounting plate 3, and the fixed mounting plate 3 is provided with a feeding driving rod 31 capable of moving linearly and a feeding cylinder 32 driving the feeding driving rod 31 to move linearly.

The fixed mounting plate 3 is provided with a feeding guide rail 37, and the feeding driving rod 31 is guided by the feeding guide rail 37 to improve the moving stability.

The feeding driving rod 31 is provided with a rack 31a, and the fixed mounting plate 3 is provided with a transmission gear 33 matched with the rack 31 a. The transmission gear 33 is provided with a synchronous wheel 34 which is coaxially linked, and a synchronous belt 35 which drives the synchronous wheel 34 to rotate is arranged on the fixed mounting plate 3. The piston rod of the feeding cylinder 32 is fixedly connected with the synchronous belt 35 through a connecting plate 36.

The fixed mounting plate 3 is provided with an auxiliary synchronizing wheel 38, and the synchronous belt 35 is arranged between the synchronizing wheel 34 and the auxiliary synchronizing wheel 38. The synchronous belt 35 and the transmission gear 33 are driven to rotate through the synchronous belt 35. The driving gear 33 drives the feed driving rod 31 to move linearly through the rack 31 a.

Since the diameter of the synchronizing wheel 34 is smaller than that of the transmission gear 33, the stroke of the piston rod of the feed cylinder 32 can be enlarged. Since six independent driving mechanisms are required for six webbing input guide rails 1, the use of a small stroke feed cylinder 32 can reduce the size of the feed mechanism.

As shown in fig. 5, two sides of the fixed mounting plate 3 can be respectively provided with a set of driving mechanisms, each set of driving mechanism can drive one webbing presser foot to move linearly, so that the feeding mechanism has a compact structure, and each set of driving mechanism can independently control the feeding length or the working state.

The feeding mechanism is provided with a feeding mounting seat 4, and a plurality of adjusting rods 41 arranged side by side are arranged in the feeding mounting seat 4. The adjusting rods 41 are provided with sliding grooves 41a, connecting rods 42 arranged in a diamond shape are arranged between the adjusting rods 41, and the connecting rods 42 are movably connected with the sliding grooves 41a on the adjusting rods 41 through pin shafts 43.

The adjusting rods 41 are connected through connecting rods 42 in a diamond shape, and the distance between the adjusting rods 41 can be adjusted proportionally.

The feed mount 4 is provided with a screw for adjusting the position of the outermost adjusting lever 41. The screw is installed on the adjusting seat of the feeding installation seat 4 through threads, the inner end of the screw is connected with the adjusting rod 41 on the outermost side, and the position of the adjusting rod 41 is adjusted through the installation depth of the screw. Each webbing input guide rail 1 is mounted on a corresponding adjustment bar 41. By adjusting the position of the outermost adjustment lever 41, the distance between the respective webbing feed rails 1 can be adjusted.

A cutter assembly is mounted above the feeding mounting seat 4. The cutter component comprises a lifting cylinder 5 and a cutter driven by the lifting cylinder. The cutter is positioned above the output port of the woven tape input guide rail (1) and can cut off the output woven tape. The cutter assembly preferably adopts a hot cutter, the hot cutter is provided with a heating part, and the woven tape can be ensured to be cut in a flush manner by adopting a hot cutting mode.

While the preferred embodiments of the present invention have been illustrated, various changes and modifications may be made by one skilled in the art without departing from the scope of the invention.

Claims (5)

1. The utility model provides a feed mechanism of a plurality of meshbelts of simultaneous input, includes a plurality of meshbelt input guide rails (1) side by side, characterized by: each braid input guide rail (1) is provided with a braid presser foot capable of moving up and down and a driving mechanism for driving the braid presser foot to move linearly along the braid input guide rail (1); the braid presser foot comprises a presser foot mounting seat (2) and a material pressing sheet (21) rotatably connected with the presser foot mounting seat (2); a presser foot cylinder (22) for driving the presser foot sheet (21) to apply pressure to the woven belt in the woven belt input guide rail (1) is arranged on the presser foot mounting seat (2); the presser foot mounting seat (2) is provided with an elastic reset component which applies upward acting force to the presser foot (21); the elastic reset assembly comprises a reset mounting plate (23) fixed on the presser foot mounting seat (2), a push rod (24) arranged on the reset mounting plate (23), and a reset spring (25) driving the push rod (24) to move upwards; the top end of the ejector rod (24) is matched with the bottom of the material pressing sheet (21); the driving mechanism comprises a fixed mounting plate (3); the fixed mounting plate (3) is provided with a feeding driving rod (31) capable of moving linearly and a feeding cylinder (32) driving the feeding driving rod (31) to move linearly.

2. A feeding mechanism for simultaneously feeding a plurality of webs as claimed in claim 1, wherein: the feeding driving rod (31) is provided with a rack (31 a), and the fixed mounting plate (3) is provided with a transmission gear (33) matched with the rack (31 a); the transmission gear (33) is provided with a synchronous wheel (34) which is coaxially linked, and a synchronous belt (35) which drives the synchronous wheel (34) to rotate is arranged on the fixed mounting plate (3); and a piston rod of the feeding air cylinder (32) is fixedly connected with the synchronous belt (35) through a connecting plate (36).

3. A feeding mechanism for simultaneously feeding a plurality of webs as claimed in claim 2, wherein: the feeding device is provided with a feeding mounting seat (4), a plurality of adjusting rods (41) arranged side by side are arranged in the feeding mounting seat (4), sliding grooves (41 a) are formed in the adjusting rods (41), connecting rods (42) arranged in a diamond shape are arranged between the adjusting rods (41), and the connecting rods (42) are movably connected with the sliding grooves (41 a) in the adjusting rods (41) through pin shafts (43); the mesh belt input guide rail (1) is correspondingly arranged on the adjusting rod (41).

4. A feeding mechanism for simultaneously feeding a plurality of webs as claimed in claim 3, wherein: and a screw for adjusting the position of the outermost adjusting rod (41) is arranged on the feeding mounting seat (4).

5. A feeding mechanism for simultaneously feeding a plurality of webs as claimed in claim 1, wherein: the output port of the mesh belt input guide rail (1) is provided with a cutter component.

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