CN211057390U - Compound curved surface template mechanism of full-automatic pocket patching machine - Google Patents

Abstract

At present, tailoring's degree of automation is higher and higher, and well-known automatic pocket patching machine sews up the clothing pocket, makes up various shape pockets on dull and stereotyped surface fabric, and along with the improvement of material life, people require more to the clothing, require full-automatic pocket patching machine to make up the curved surface pocket on the surface fabric of curved surface now, and internal current pocket patching machine can not satisfy each user's demand, the utility model discloses: a compound curved surface template mechanism of a full-automatic pocket patching machine can realize sewing a curved surface pocket on a curved surface fabric. In order to overcome the above-mentioned problem that exists in the processing is made up to the pocket of clothing now, the utility model designs a compound curved surface template mechanism of full-automatic pocket patching machine: by utilizing the existing plane template mechanism, the motion trail of the existing template is not changed, the horizontal front-back telescopic motion is still performed, only the shape of the template is changed, the template is changed into a template frame, the shape and the edge folding of the pocket can still be ensured, and a curved template capable of moving up and down is designed and installed below the horizontal motion plane template mechanism to ensure the formation of a curved fabric and a curved pocket; after the template frame is in place, the curved surface template is lifted in place, the edge folding mechanism, the material pressing mechanism and the material receiving mechanism are in place, the curved surface template is lowered, the template frame is withdrawn, and the curved surface pocket is automatically sewn together with the existing bag folding mechanism, material receiving mechanism, automatic sewing mechanism and automatic material receiving mechanism, as shown in figure 1.

Description

Compound curved surface template mechanism of full-automatic pocket patching machine

Technical Field

The utility model relates to an automatic change and make up machinery, especially relate to full-automatic pocket patching machine makes up compound curved surface template mechanism of curved surface pocket on the curved surface fabric.

Background

At present, the automation degree of garment processing is higher and higher, the known automatic pocket patching machine is used for sewing pockets of various shapes on a flat fabric, along with the improvement of material life, people have higher requirements on garments, the existing full-automatic pocket patching machine is required to sew curved pockets on curved fabrics, and the existing full-automatic pocket patching machine in China cannot meet the requirements of each user.

Disclosure of Invention

In order to overcome the above-mentioned problem that exists in the processing is made up to the pocket of clothing now, the utility model designs a compound curved surface template mechanism: by utilizing the existing plane template mechanism, the motion trail of the existing template is not changed, the horizontal front-back telescopic motion is still performed, only the shape of the template is changed, the template is changed into a template frame, the shape and the edge folding of the pocket can still be ensured, and a curved template capable of moving up and down is designed and installed below the horizontal motion plane template mechanism to ensure the formation of a curved fabric and a curved pocket; after the template frame is in place, the curved surface template is lifted in place, the edge folding mechanism, the material pressing mechanism and the material receiving mechanism are in place, the curved surface template is lowered, the template frame is withdrawn, and the curved surface pocket is automatically sewn together with the existing bag folding mechanism, material receiving mechanism, automatic sewing mechanism and automatic material receiving mechanism, as shown in figure 1.

Technical scheme

The utility model provides a technical scheme that its technical problem adopted is: the composite curved surface template mechanism is designed: consists of a horizontal moving plane template mechanism and an up-and-down moving curved surface template mechanism.

The horizontal movement plane template mechanism comprises: the flat template comprises, by weight, 1-1 parts of a flat template frame, 1-2 parts of a connecting plate, 1-3 parts of fasteners N, 1-4 parts of a guide rail connecting plate, 1-5 parts of guide rail sliding blocks, 1-6 parts of fasteners P, 1-7 parts of a fixing plate, 1-8 parts of fasteners Q, 1-9 parts of air cylinder connecting blocks, 1-10 parts of fasteners R, 1-11 pins, 1-12 parts of air cylinders, 1-13 parts of guide rails, 1-14 parts of fasteners S, 1-15 parts of fasteners T, 1-16 parts of fasteners U, 1-17 parts of air cylinder connectors, 1-18 parts of a sliding block connecting plate and 1-19 parts of fasteners V, and is shown in figure 5.

The plane template frame (1-1) is connected with the connecting plate (1-2) by a fastener V (1-19), the slide block connecting plate (1-18) is connected with the connecting plate (1-2) by a fastener N (1-3), the cylinder joint (1-17) is connected with the slide block connecting plate (1-18) by a fastener (1-16) U, the guide rail (1-13) is connected with the guide rail connecting plate (1-4) by a fastener (1-14) S, the slide block (1-5) is connected with the slide block connecting plate (1-18) by a fastener T (1-15), the fixing plate (1-7) is connected with the guide rail connecting plate (1-4) by a fastener P (1-6), the fixing plate (1-7) is connected with the cylinder connecting plate (1-9) by a fastener Q (1-8), the cylinder connecting block (1-9) is connected with the cylinder (1-12) by a pin (1-11), and the locking piece pin (1-11) of a fastener R (1-10) is used for preventing the left and right movement; the cylinders (1-12) and the cylinder joints (1-17) are connected through threads.

The up-down motion curved template mechanism comprises an L-shaped connecting plate, a fastener A, a fastener B, a power fixing plate, a fastener C, a power mechanism, a fastener D, a template fixing plate, a curved template and a fastener E, and is shown in figure 2.

L type connecting plate passes through fastener A to be installed in the frame, L type connecting plate passes through fastener B to be connected with power fixing plate, power fixing plate passes through fastener C to be connected with power unit, template fixing plate passes through fastener D to be connected with power unit, template fixing plate passes through fastener E to be connected with the curved surface template, drive the up-and-down motion of curved surface template, with present book bag mechanism cooperation accomplish the book bag of curved surface pocket, connect the material, pay-off, automatic sewing, receive the material automatically, accomplish the automatic sewing of curved surface pocket, satisfy user's demand.

Drawings

FIG. 1 is a schematic diagram of a compound curved template mechanism and operation.

Fig. 2 is a schematic diagram of a curved surface template mechanism with up-and-down motion by using an air cylinder as power.

Fig. 3 is a schematic diagram of a hydraulic powered up-and-down motion curved surface template mechanism.

FIG. 4 is a schematic diagram of a curved surface template mechanism for up-and-down motion with a stepping motor or a servo motor as power.

Fig. 5 is a schematic view of a horizontal motion planar stencil mechanism.

The parts of fig. 1 are illustrated as follows: 1. horizontal moving plane template mechanism, 2 folding mechanism, 3 up and down moving curved template mechanism, 4 bedplate, 5 machine frame.

The parts of figure 2 are illustrated as follows, 3-1, L type connecting plates, 3-2 fasteners A, 3-3 fasteners B, 3-4 power fixing plates, 3-5 fasteners C, 3-6 cylinder components (power is cylinder: 3-6-1 cylinder fixing plate, 3-6-2 piston rod, 3-6-3 air rod body, 3-6-4 air inlet nozzle, 3-6-5 air outlet nozzle), 3-7 fasteners D, 3-8 template fixing plates, 3-9 curved templates, 3-10 fasteners E, 5 machine frame.

The parts of fig. 3 are explained as follows: 3-8 of a template fixing plate, 3-9 of a curved surface template, 3-10 of a fastening piece E, 3-11 of a fastening piece F, 3-12 of a pin, 3-13 of a fastening piece G, 3-14 of a nut, 3-15 of a fastening piece H, 3-16 of a hydraulic cylinder, 3-17 of a piston rod, 3-18 of a connecting plate and 5 of a frame.

The parts of the drawing 4 are illustrated as follows, namely 3-1, L type connecting plates, 3-3 fasteners B, 3-7 fasteners D, 3-8 template fixing plates, 3-9 curved templates, 3-10 fasteners E, 3-19 fasteners J, 3-20 stepping motors or servo motors, 3-21 motor connecting plates, 3-22 couplers, 3-23 lead screws, 3-24 lead screw nuts, 3-25 fasteners K, 3-26 lead screw nut connecting plates, 3-27 fasteners L, 3-28 fasteners M, 3-29 linear guide rail assemblies, 3-30 ball bearings A, 3-31 ball bearings B and 5 machine frames.

The parts of fig. 5 are explained as follows: 1-1 of a plane template frame, 1-2 of a connecting plate, 1-3 of fasteners N, 1-4 of a guide rail connecting plate, 1-5 of guide rail sliding blocks, 1-6 of fasteners P, 1-7 of a fixing plate, 1-8 of fasteners Q, 1-9 of air cylinder connecting blocks, 1-10 of fasteners R, 1-11 pins, 1-12 of air cylinders, 1-13 of guide rails, 1-14 of fasteners S, 1-15 of fasteners T, 1-16 of fasteners U, 1-17 of air cylinder connectors, 1-18 of a sliding block connecting plate and 1-19 of fasteners V.

The specific implementation mode is as follows:

compound curved surface template mechanism: consists of a horizontal motion plane template mechanism (1) and an up-and-down motion curved surface template mechanism (3).

The first embodiment of the up-and-down motion curved surface template mechanism is that an air cylinder is used as a power up-and-down motion curved surface template mechanism and comprises an L-type connecting plate (3-1), a fastening piece A (3-2), a fastening piece B (3-3), a power fixing plate (3-4), a fastening piece C (3-5), an air cylinder assembly (3-6) (the power is that the air cylinder is 3-6-1, the air cylinder fixing plate is 3-6-2, a piston rod is 3-6-3, an air rod body is 3-6-4, an air inlet nozzle is 3-6-5, an air outlet nozzle is 3-6-5), a fastening piece D (3-7), a template fixing plate (3-8), a curved surface template (3-9) and a.

In the up-and-down motion curved surface template mechanism (3) with an air cylinder as power, an L-type connecting plate (3-1) is installed on a rack (5) through a fastener A (3-2), a L-type connecting plate (3-1) is connected with a power fixing plate (3-4) through a fastener B (3-3), the power fixing plate (3-4) is connected with an air cylinder assembly (3-6) through a fastener C (3-5), a template fixing plate (3-8) is connected with the air cylinder assembly (3-6) through a fastener D (3-7), and the template fixing plate (3-8) is connected with a curved surface template (3-9) through a fastener E (3-10).

When the cylinder body (3-6-3) enters air through the air inlet nozzle (3-6-4), the piston rod (3-6-2) is driven to extend out, so that the curved surface template (3-9) of the cylinder fixing plate (3-6-1) is driven to do linear extension motion, when the air outlet nozzle (3-6-5) enters air, the piston rod (3-6-2) retracts, so that the cylinder fixing plate (3-6-1) and the curved surface template (3-9) are driven to do linear retraction motion, as shown in figure 2.

The second implementation scheme of the up-and-down motion curved template mechanism: up-and-down motion curved surface template mechanism with hydraulic pressure as power

The hydraulic cylinders (3-16) are connected with the frame (5) through fasteners H (3-15), the connecting plates (3-18) are connected with the hydraulic cylinders (3-16) through fasteners G (3-13), the template fixing plates (3-8) are connected with the piston rods (3-17) through threads and locked through nuts (3-14), the curved surface templates (3-9) are connected with the template fixing plates (3-8) through fasteners E (3-10), and the pins (3-12) penetrate through corresponding holes of the template fixing plates (3-8) and are locked through fasteners F (3-11).

When the hydraulic cylinders (3-16) work, the piston rods (3-17) extend out, so that the template fixing plates (3-8), the curved surface templates (3-9) and the pins (3-12) are driven to move in an extending mode, and when the hydraulic cylinders (3-16) work in a reverse direction, the piston rods (3-17) are withdrawn, so that the template fixing plates (3-8), the curved surface templates (3-9) and the pins (3-12) are driven to move in a retracting mode, as shown in figure 3.

The third scheme of the up-and-down motion curved surface template mechanism is as follows: up-down motion curved surface template mechanism with stepping motor or servo motor as power

A stepping motor or a servo motor is used as a power up-and-down motion curved surface template mechanism, a motor connecting plate (3-21) is connected with a motor (3-20) through a fastening piece J (3-19), the motor (3-20) is connected with a screw rod (3-23) through a coupling (3-22), a ball bearing B (3-31) and a ball bearing A (3-30) are installed on the motor connecting plate (3-21), an L-type connecting plate (3-1) is connected with the motor connecting plate (3-21) through a fastening piece B (3-3), a linear guide rail assembly (3-29) is connected with the motor connecting plate (3-21) through a fastening piece M (3-28), a screw rod nut connecting plate (3-26) is connected with a linear guide rail assembly (3-29) through a fastening piece K (3-25), a screw rod nut connecting plate (3-26) is connected with a screw rod nut (3-24) through a fastening piece L (3-27), a template fixing plate (3-8) is connected with a screw rod nut connecting plate (3-26) through a fastening piece D (3-7), and a curved surface template fixing plate (3-10) is connected with a curved surface template (3-.

The motors (3-20) rotate so as to drive the couplers (3-22) and the lead screws (3-23) to rotate, the lead screw nuts (3-24) do linear reciprocating motion, the lead screw nuts (3-24) drive the lead screw nut connecting plates (3-26) to do vertical linear reciprocating motion, and the curved surface templates (3-9) are driven to do vertical linear reciprocating motion, as shown in figure 4

Horizontal movement plane template mechanism (1): the plane template frame (1-1) is connected with the connecting plate (1-2) by a fastener U (1-19), the slide block connecting plate (1-18) is connected with the connecting plate (1-2) by a fastener N (1-3), the cylinder joint (1-17) is connected with the slide block connecting plate (1-18) by a fastener U (1-16), the guide rail (1-13) is connected with the guide rail connecting plate (1-4) by a fastener S (1-14), the slide block (1-5) is connected with the slide block connecting plate (1-18) by a fastener T (1-15), the fixing plate (1-7) is connected with the guide rail connecting plate (1-4) by a fastener P (1-6), the fixing plate (1-7) is connected with the cylinder connecting plate (1-9) by a fastener Q (1-8), the cylinder connecting block (1-9) is connected with the cylinder (1-12) by a pin (1-11), and the locking piece pin (1-11) of a fastener R (1-10) is used for preventing the left and right movement; the cylinders (1-12) and the cylinder joints (1-17) are connected through threads.

The motion principle of the horizontal motion plane template mechanism is as follows: as shown in figure 5, when the air cylinder (1-12) extends out, the air cylinder connector (1-17) drives the sliding block connecting plate (1-18) and the sliding block (1-5) to do linear horizontal extension movement along the guide rail (1-13) so as to drive the connecting plate (1-2) and the plane template frame (1-1) to do linear horizontal extraction movement, and when the air cylinder (1-12) retreats, the plane template frame (1-1), the connecting plate (1-2) and the sliding block connecting plate (1-18) do linear horizontal retreating movement.

The power mechanism of the up-and-down motion curved surface template mechanism (3) moves up and down to drive the up-and-down motion of the curved surface template (3-9), the horizontal motion plane template mechanism (1) drives the plane template frame (1-1) to horizontally move back and forth in a telescopic mode, the curved surface template (3-9) and the plane template frame (1-1) are matched to form a curved surface, and the curved surface pocket folding, receiving, feeding, automatic sewing and automatic receiving are completed by matching with the existing bag folding mechanism (2), the automatic sewing mechanism, the automatic receiving mechanism and the like, so that the automatic sewing of the curved surface pocket is completed.

The shape and size of the plane template frame (1-1) are determined by the size and shape of the pocket, and the shape and size of the curved template (3-9) are determined by the curved surface requirement and size of the pocket.

The power mechanism in the up-and-down motion curved surface template mechanism can be electric power, hydraulic pressure or air pressure.

The working process of sewing the pocket on the curved surface fabric comprises the steps of placing the fabric on a bedplate (5), placing a plane template frame (1-1) in place, placing the pocket fabric on a curved surface template (3-9) and the plane template frame (1-1), pressing a folding pocket by a pocket folding mechanism (2), pressing a material receiving and feeding pressure stabilizing mechanism in place, moving the curved surface template (3-9) downwards, drawing out the template frame (1-1), conveying the material by the material receiving and feeding pressure stabilizing mechanism, automatically sewing by a sewing machine, automatically receiving the material and sewing an ideal curved surface pocket.

Claims (4)

1. A composite curved surface template mechanism of a full-automatic bag sticking machine is characterized by comprising a horizontal motion plane template mechanism (1) and an up-and-down motion curved surface template mechanism (3), wherein an air cylinder is used as a power up-and-down motion curved surface template mechanism (3), a L type connecting plate (3-1) is installed on a rack (5) through a fastening piece A (3-2), a L type connecting plate (3-1) is connected with a power fixing plate (3-4) through a fastening piece B (3-3), the power fixing plate (3-4) is connected with an air cylinder assembly (3-6) through a fastening piece C (3-5), a template fixing plate (3-8) is connected with an air cylinder assembly (3-6) through a fastening piece D (3-7), a template fixing plate (3-8) is connected with a curved surface template (3-9) through a fastening piece E (3-10), a hydraulic cylinder (3-16) in the up-and-down motion curved surface template mechanism (3) is connected with a rack (5) through a fastening piece H (3-15) by a fastening piece B (3-10) and a screw rod-10) by a screw rod, a screw rod-3-7), a screw rod is connected with a screw rod, a screw rod screw nut (3-3) and a screw nut 7), a screw nut 7 is connected with a screw nut 3-7, a screw nut 7 is connected with a screw nut 7, a screw nut 3-3 screw nut 7, a screw nut 7 is connected with a screw nut 7, a screw nut 7, a screw nut 3-.

2. The compound curved surface template mechanism of the full-automatic pocket patching machine as claimed in claim 1, wherein: the power in the up-and-down motion curved template mechanism can be electric power, hydraulic pressure or air pressure.

3. The compound curved surface template mechanism of the full-automatic pocket patching machine as claimed in claim 1, wherein: the shape and size of the template frame (1-1) in the horizontal movement plane template mechanism (1) are determined by the size and shape of the pocket, and the shape and size of the curved surface template (3-9) are determined by the curved surface requirement and size of the pocket.

4. The compound curved surface template mechanism of the full-automatic pocket patching machine as claimed in claim 1, wherein: the up-and-down motion curved surface template mechanism is arranged on the frame and is arranged below the horizontal motion plane template mechanism.

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