CN210657406U

CN210657406U - Material moving device for pocket patching machine

Info

Publication number: CN210657406U
Application number: CN201921346741.XU
Authority: CN
Inventors: 郑钧文
Original assignee: Jiangsu Sweiman Intelligent Technology Co Ltd
Current assignee: Jiangsu Sweiman Intelligent Technology Co Ltd
Priority date: 2019-08-19
Filing date: 2019-08-19
Publication date: 2020-06-02
Anticipated expiration: 2029-08-19

Abstract

The utility model discloses a material moving device for a bag patching machine, which is arranged on a frame provided with a desktop, wherein the desktop is loaded with cloth and bag pieces, the bag pieces are stacked on the cloth, the material moving device comprises a bag pressing piece component, a bag pressing piece driving mechanism, a cloth pressing plate, a pressing plate driving mechanism, a transverse sliding seat, a transverse driving mechanism, a longitudinal sliding seat and a longitudinal driving mechanism, and the cloth pressing plate is arranged on the pressing plate driving mechanism and is provided with a bag piece groove; the pressing plate driving mechanism is used for driving the cloth pressing plate to move to be abutted against the cloth on the table top so as to press the cloth; the bag pressing piece assembly is connected to the bag pressing piece driving mechanism; the bag pressing piece driving mechanism is used for driving the bag pressing piece assembly to move into the bag piece groove and pressing the bag pieces stacked on the cloth. The utility model discloses can guarantee that bag piece edge part is neat with the smooth pressure of bag piece on the cloth, improve the bag piece and sew up the quality, improve the yield to simple structure, the fault rate is low.

Description

Material moving device for pocket patching machine

Technical Field

The utility model relates to a material moving device for pocket patching machine.

Background

At present, the pocket is mainly applied to sewing operation of jeans and shirt pockets, flat stitch sewing and hitching can be completed at one time, and the pocket sewing machine is suitable for sewing various jeans back pockets and shirt pockets and sewing other irregular-shaped parts in garment processing. The material moving device of the pocket patching machine is used for pressing cloth and pocket pieces stacked on the cloth and moving the pocket pieces to the sewing machine head so as to sew the pocket pieces on the cloth to form a pocket, but the existing material moving device is complex in structure and high in failure rate, seriously influences the production efficiency, does not press the pocket pieces in place, and influences the sewing quality and the qualification rate of the edges of the pocket pieces.

Disclosure of Invention

The utility model aims to solve the technical problem that overcome prior art's defect, provide a material mobile device for pocket patching machine, it can guarantee that bag piece edge part is neat with the even pressure of bag piece on the cloth, improves the bag piece and sews up the quality, improves the yield to simple structure, the fault rate is low, and stability is good.

In order to solve the technical problem, the technical scheme of the utility model is that: a material moving device for a pocket patching machine is arranged on a machine frame provided with a table top, the table top is loaded with cloth and pocket sheets, the pocket sheets are stacked on the cloth, the material moving device comprises a pocket sheet pressing component, a pocket sheet pressing driving mechanism, a cloth pressing plate, a pressing plate driving mechanism, a transverse sliding seat, a transverse driving mechanism, a longitudinal sliding seat and a longitudinal driving mechanism, wherein,

the transverse sliding seat is connected to the rack in a transverse sliding manner;

the transverse driving mechanism is connected with the transverse sliding seat and is used for driving the transverse sliding seat to slide along the transverse direction;

the longitudinal sliding seat is connected to the transverse sliding seat in a longitudinal sliding mode;

the longitudinal driving mechanism is arranged on the transverse sliding seat, and is connected with the longitudinal sliding seat and used for driving the longitudinal sliding seat to slide along the longitudinal direction;

the cloth pressing plate is arranged on the pressing plate driving mechanism and is provided with a bag piece groove;

the pressing plate driving mechanism is arranged on the longitudinal sliding seat and used for driving the cloth pressing plate to move to be abutted against cloth on the desktop so as to press the cloth;

the bag pressing piece assembly is connected to the bag pressing piece driving mechanism;

the bag pressing sheet driving mechanism is installed on the longitudinal sliding seat and used for driving the bag pressing sheet assembly to move into the bag sheet groove and pressing the bag sheets stacked on the cloth.

Further provides a specific proposal of the bag pressing sheet driving mechanism, the bag pressing sheet driving mechanism comprises a pressing cylinder and a pressing seat, wherein,

the bag pressing piece assembly is arranged on the pressing seat;

the pressing seat is matched on the longitudinal sliding seat in a sliding manner;

the compressing cylinder is installed on the longitudinal sliding seat and connected with the compressing seat, so that the compressing cylinder drives the compressing seat to slide and drives the bag pressing piece assembly to move into the bag piece groove to press the bag pieces.

Further, in order to press the bag piece on the cloth smoothly and ensure the edge of the bag piece to be tidy, the bag piece pressing component comprises a plurality of bag piece pressing pieces and a pressing piece driving mechanism, wherein,

the bag sheet pressing piece is slidably connected to the pressing seat, is positioned in the bag sheet groove, and forms a sewing gap for sewing the bag sheet with the edge of the bag sheet groove;

the pressing piece driving mechanism is installed on the pressing seat, connected with all the bag pressing pieces and used for driving the bag pressing pieces to slide on the pressing seat so as to adjust the distance between the bag pressing pieces and the edge of the bag groove.

Further provides a specific scheme of the bag piece pressing assembly, the number of the bag piece pressing pieces is 3, and the bag piece pressing pieces are respectively a left pressing piece, a bottom pressing piece and a right pressing piece which are sequentially arranged along the edge of the bag piece groove;

the tablet pressing driving mechanism comprises a driving cylinder, a bottom connecting rod, at least one left connecting rod and at least one right connecting rod, wherein,

the left pressing piece, the bottom pressing piece and the right pressing piece are all connected to the pressing seat in a sliding mode;

the driving cylinder is arranged on the pressing seat;

one end of the bottom connecting rod is connected to the bottom pressing sheet, and the other end of the bottom connecting rod is connected with the driving cylinder;

one end of the left connecting rod is connected with the left pressing sheet, and the other end of the left connecting rod is connected with the bottom connecting rod;

one end of the right connecting rod is connected with the right pressing piece, and the other end of the right connecting rod is connected with the bottom connecting rod, so that the driving cylinder drives the bottom connecting rod to move, and the left pressing piece, the bottom pressing piece and the right pressing piece are driven to slide on the pressing seat.

Furthermore, the number of the left connecting rods is two, the pressing seat is provided with left guide grooves which correspond to the left connecting rods one by one, the left pressing piece is provided with left guide pillars which correspond to the left guide grooves one by one and are matched in the corresponding left guide grooves in a sliding manner, and the left connecting rods are connected with the corresponding left guide pillars;

the pressing seat is provided with two right guide grooves which are in one-to-one correspondence with the right connecting rods, the right pressing sheet is provided with right guide posts which are in one-to-one correspondence with the right guide grooves and are matched in the corresponding right guide grooves in a sliding manner, and the right connecting rods are connected with the corresponding right guide posts;

the pressing seat is also provided with a bottom guide groove, the bottom pressing sheet is provided with two bottom guide pillars which are matched in the bottom guide groove in a sliding manner, and the bottom connecting rod is connected with one of the bottom guide pillars.

Further provides a specific scheme of the pressing plate driving mechanism, the pressing plate driving mechanism comprises a pressing plate seat and at least one pressing plate seat driving assembly, the pressing plate seat driving assembly comprises an actuating cylinder and a shifting rod, wherein,

the cloth pressing plate is connected to the pressing plate seat;

the pressing plate seat is connected to the longitudinal sliding seat in a sliding manner, and driving holes which correspond to the pressing plate seat driving assemblies one by one are formed in the pressing plate seat;

the deflector rod is rotationally connected to the longitudinal sliding seat, and one end of the deflector rod extends into the corresponding driving hole;

the cylinder body of the actuating cylinder is hinged to the longitudinal sliding seat, and a piston rod of the actuating cylinder is connected with the shifting rod, so that the actuating cylinder drives the shifting rod to rotate, and one end of the shifting rod moves to abut against the driving hole to drive the pressing plate seat to slide.

Further provides a specific proposal of the transverse driving mechanism, the transverse driving mechanism comprises a transverse driving wheel, a transverse driven wheel, a transverse transmission belt and a transverse power mechanism, wherein,

the transverse driving wheel and the transverse driven wheel are both rotationally connected to the rack;

the transverse transmission belt is connected to the transverse driving wheel and the transverse driven wheel and is connected with the transverse sliding seat;

and the transverse power mechanism is connected with the transverse driving wheel and is used for driving the transverse driving wheel to rotate so as to drive the transverse sliding seat to slide.

Further provides a specific proposal of the transverse power mechanism, the transverse power mechanism comprises a transverse motor, a transverse main driving wheel, a transverse auxiliary driving wheel and a transverse driving belt, wherein,

the transverse motor is arranged on the rack;

the transverse main driving wheel is connected to the transverse motor;

the transverse driven wheel is connected to the transverse driving wheel;

the transverse driving belt is connected to the transverse main driving wheel and the transverse driven wheel, so that the transverse motor drives the transverse main driving wheel to rotate, and further drives the transverse driven wheel and the transverse driving wheel to rotate.

Further provides a specific proposal of the longitudinal driving mechanism, the longitudinal driving mechanism comprises a longitudinal driving wheel, a longitudinal driven wheel, a longitudinal transmission belt and a longitudinal power mechanism, wherein,

the longitudinal driving wheel and the longitudinal driven wheel are both rotationally connected to the transverse sliding seat;

the longitudinal transmission belt is connected to the longitudinal driving wheel and the longitudinal driven wheel and is connected with the longitudinal sliding seat;

and the longitudinal power mechanism is connected with the longitudinal driving wheel and is used for driving the longitudinal driving wheel to rotate so as to drive the longitudinal sliding seat to slide.

Further provides a specific proposal of the longitudinal power mechanism, the longitudinal power mechanism comprises a longitudinal motor, a longitudinal main driving wheel, a longitudinal auxiliary driving wheel and a longitudinal driving belt, wherein,

the longitudinal motor is arranged on the transverse sliding seat;

the longitudinal main driving wheel is connected to the longitudinal motor;

the longitudinal driven wheel is connected to the longitudinal driving wheel;

the longitudinal driving belt is connected to the longitudinal main driving wheel and the longitudinal driven driving wheel, so that the longitudinal motor drives the longitudinal main driving wheel to rotate, and further drives the longitudinal driven driving wheel and the longitudinal driving wheel to rotate.

After the technical scheme is adopted, the pressing plate seat driving assembly drives the pressing plate seat to slide on the longitudinal sliding seat and drive the cloth pressing plate to press cloth on the table top, the pressing cylinder drives the pressing seat to slide and drive the bag pressing piece assembly to move into the bag piece groove to press the bag piece, and then the cloth and the bag piece are driven by the transverse driving mechanism and the longitudinal driving mechanism to move to the sewing machine head on the table top so that the sewing machine head stitches the bag piece on the cloth. And a sewing gap for sewing the pocket sheet is formed between the pocket sheet pressing piece and the edge of the pocket sheet groove, the sewing machine head sews in the sewing gap, so that the pocket sheet is smoothly pressed on the cloth, the edge of the pocket sheet is ensured to be neat, after the sewing machine head sews along the sewing gap once, the pressing piece driving mechanism drives the pocket sheet pressing piece to slide on the pressing seat so as to expand the width of the sewing gap, and then the sewing machine head sews along the sewing gap once again, so that the sewing quality of the pocket sheet is improved, and the yield is improved.

Drawings

Fig. 1 is a schematic structural view of the material moving device for the bag sticking machine of the present invention.

Fig. 2 is a schematic view of a partial structure of a material moving device for a patch pocket machine according to the present invention;

fig. 3 is a schematic structural view of the bag pressing sheet assembly according to the present invention in one state;

fig. 4 is a schematic structural view of the bag pressing sheet assembly according to another state of the present invention;

fig. 5 is a schematic structural diagram of the transverse driving mechanism and the longitudinal driving mechanism of the present invention.

Detailed Description

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is provided in connection with the accompanying drawings.

As shown in fig. 1 to 5, a material moving device for a bag sticking machine is installed on a frame 2 provided with a table top 1, the table top 1 is loaded with a cloth and a bag sheet, the bag sheet is stacked on the cloth, and the material moving device comprises a bag pressing sheet component, a bag pressing sheet driving mechanism, a cloth pressing plate 3, a pressing plate driving mechanism, a transverse sliding seat 4, a transverse driving mechanism, a longitudinal sliding seat 5 and a longitudinal driving mechanism, wherein,

the transverse sliding seat 4 is connected to the rack 2 in a transverse sliding manner;

the transverse driving mechanism is connected with the transverse sliding seat 4 and is used for driving the transverse sliding seat 4 to slide along the transverse direction;

the longitudinal sliding seat 5 is connected to the transverse sliding seat 4 in a sliding manner along the longitudinal direction;

the longitudinal driving mechanism is arranged on the transverse sliding seat 4, is connected with the longitudinal sliding seat 5 and is used for driving the longitudinal sliding seat 5 to slide along the longitudinal direction;

the cloth pressing plate 3 is arranged on the pressing plate driving mechanism and is provided with a bag piece groove 6;

the pressing plate driving mechanism is arranged on the longitudinal sliding seat 5 and is used for driving the cloth pressing plate 3 to move to be abutted against the cloth on the tabletop 1 so as to press the cloth;

the bag pressing sheet driving mechanism is arranged on the longitudinal sliding seat 5 and is used for driving the bag pressing sheet assembly to move into the bag sheet groove 6 and pressing the bag sheets stacked on the cloth.

Specifically, the cloth pressing plate 3 presses the cloth, the bag pressing piece assembly presses the bag piece stacked on the cloth, then the cloth and the bag piece are driven to move to the sewing machine head on the table top 1 through the transverse driving mechanism and the longitudinal driving mechanism, so that the sewing machine head can sew the bag piece on the cloth, and specifically, the friction force between the cloth pressing plate 3 and the cloth is larger than the friction force between the cloth and the table top 1. Specifically, the longitudinal sliding base 5 includes a base 51, a fixed base 52 disposed on the base 51, a first sliding seat 53 disposed on the fixed base 52, a connecting plate 54 connected to the fixed base 52, and a second sliding seat 55 fixed on the connecting plate 54.

As shown in fig. 1, 2 and 5, the bag pressing sheet driving mechanism includes, for example and without limitation, a pressing cylinder 7 and a pressing base 8, wherein,

the bag pressing piece assembly is arranged on the pressing seat 8;

the pressing seat 8 is matched on the longitudinal sliding seat 5 in a sliding way;

the compressing cylinder 7 is installed on the longitudinal sliding seat 5 and connected with the compressing seat 8, so that the compressing cylinder 7 drives the compressing seat 8 to slide and drives the bag pressing piece assembly to move into the bag piece groove 6 to press the bag piece, and specifically, the compressing seat 8 and the compressing cylinder 7 are both installed on the second sliding fit seat 55.

As shown in fig. 1-4, the bag strip pressing assembly includes, for example but not limited to, a plurality of bag strip pressing plates and a pressing plate driving mechanism, wherein,

the bag sheet pressing sheet is connected to the pressing seat 8 in a sliding mode, is positioned in the bag sheet groove 6 and forms a sewing gap 9 for sewing the bag sheet with the edge of the bag sheet groove 6;

the pressing sheet driving mechanism is installed on the pressing seat 8, is connected with all the bag sheet pressing sheets and is used for driving the bag sheet pressing sheets to slide on the pressing seat 8 so as to adjust the distance between the bag sheet pressing sheets and the edge of the bag sheet groove 6 and further adjust the width of the sewing gap 9; specifically, the sewing machine head sews in the sewing gap 9, when the sewing machine head sews along the sewing gap 9 for one time, the pressing piece driving mechanism drives the bag piece pressing piece to slide on the pressing seat 8 so as to expand the width of the sewing gap 9, and then the sewing machine head sews along the sewing gap 9 for one time, so that the sewing quality of the bag piece is improved, and the yield is improved.

As shown in fig. 1 to 5, the number of the bag piece pressing pieces is 3, and the bag piece pressing pieces are respectively a left pressing piece 10, a bottom pressing piece 11 and a right pressing piece 12 which are sequentially arranged along the edge of the bag piece groove 6;

the tablet pressing driving mechanism comprises a driving cylinder 13, a bottom connecting rod 14, at least one left connecting rod 15 and at least one right connecting rod 16, wherein,

the left pressing piece 10, the bottom pressing piece 11 and the right pressing piece 12 are all connected to the pressing seat 8 in a sliding mode;

the driving cylinder 13 is mounted on the pressing seat 8;

one end of the bottom connecting rod 14 is connected to the bottom pressing sheet 11, and the other end of the bottom connecting rod 14 is connected to the driving cylinder 13;

one end of the left connecting rod 15 is connected with the left pressing sheet 10, and the other end of the left connecting rod 15 is connected with the bottom connecting rod 14;

one end of the right connecting rod 16 is connected with the right pressing piece 12, and the other end of the right connecting rod 16 is connected with the bottom connecting rod 14, so that the driving cylinder 13 drives the bottom connecting rod 14 to move, and further drives the left pressing piece 10, the bottom pressing piece 11 and the right pressing piece 12 to slide on the pressing base 8, so as to adjust the size of the sewing gap 9.

As shown in fig. 2, 3 and 4, two left connecting rods 15 are provided, the pressing base 8 is provided with left guide slots 17 corresponding to the left connecting rods 15 one by one, the left pressing sheet 10 is provided with left guide posts 18 corresponding to the left guide slots 17 one by one and slidably fitted in the corresponding left guide slots 17, and the left connecting rods 15 are connected with the corresponding left guide posts 18;

the number of the right connecting rods 16 is two, the pressing seat 8 is provided with right guide grooves 19 corresponding to the right connecting rods 16 one by one, the right pressing sheet 12 is provided with right guide posts 20 corresponding to the right guide grooves 19 one by one and matched in the corresponding right guide grooves 19 in a sliding manner, and the right connecting rods 16 are connected with the corresponding right guide posts 20;

the pressing base 8 is further provided with a bottom guide groove 21, the bottom pressing piece 11 is provided with two bottom guide posts 22 which are slidably matched in the bottom guide groove 21, the bottom connecting rod 14 is connected with one bottom guide post 22, specifically, the left pressing piece 10 slides along the left guide groove 17, the bottom pressing piece 11 slides along the bottom guide groove 21, and the right pressing piece 12 slides along the right guide groove 19.

As shown in fig. 1, 2 and 5, the platen drive mechanism is, for example, but not limited to, a structure including a platen base 23 and at least one platen base drive assembly including an actuating cylinder 24 and a deflector rod 25, wherein,

the cloth pressing plate 3 is connected to the pressing plate seat 23;

the pressing plate seat 23 is connected to the longitudinal sliding seat 5 in a sliding manner, and the pressing plate seat 23 is provided with driving holes 26 which correspond to the pressing plate seat driving components one to one;

the shift lever 25 is rotatably connected to the longitudinal slide carriage 5, and one end of the shift lever 25 extends into the corresponding driving hole 26;

the cylinder body of the actuating cylinder 24 is hinged on the longitudinal sliding seat 5, and the piston rod of the actuating cylinder 24 is connected with the shift lever 25, so that the actuating cylinder 24 drives the shift lever 25 to rotate, and one end part of the shift lever 25 moves to be abutted against the driving hole 26 to drive the pressing plate seat 23 to slide; in this embodiment, the pressing plate seat 23 is slidably connected to the first sliding fitting seat 53 along the vertical direction, and when the pressing plate seat 23 moves downward, the cloth pressing plate 3 is driven to press the cloth, specifically, two pressing plate seat driving assemblies are provided.

As shown in fig. 1 and 5, the transverse driving mechanism includes, for example and without limitation, a transverse driving wheel 27, a transverse driven wheel 28, a transverse driving belt 29 and a transverse power mechanism, wherein,

the transverse driving wheel 27 and the transverse driven wheel 28 are both rotationally connected to the frame 2;

the transverse transmission belt 29 is connected to the transverse driving wheel 27 and the transverse driven wheel 28 and is connected with the transverse sliding seat 4;

the transverse power mechanism is connected with the transverse driving wheel 27 and is used for driving the transverse driving wheel 27 to rotate so as to drive the transverse sliding seat 4 to slide; in this embodiment, the transverse driving pulley 27 and the transverse driven pulley 28 are both synchronous pulleys, and the transverse transmission belt 29 is a synchronous belt.

As shown in fig. 1 and 5, the lateral power mechanism is, for example and without limitation, a structure including a lateral motor 30, a lateral main driving wheel 31, a lateral auxiliary driving wheel 32, and a lateral driving belt 33, wherein,

the transverse motor 30 is mounted on the frame 2;

the transverse main driving wheel 31 is connected to the transverse motor 30;

the transverse driven wheel 32 is connected to the transverse driving wheel 27;

the transverse driving belt 33 is connected to the transverse main driving wheel 31 and the transverse driven wheel 32, so that the transverse motor 30 drives the transverse main driving wheel 31 to rotate, and further drives the transverse driven wheel 32 and the transverse driving wheel 27 to rotate; in this embodiment, the transverse primary driving wheel 31 and the transverse secondary driving wheel 32 are both synchronous pulleys, and the transverse driving belt 33 is a synchronous belt.

As shown in fig. 1 and 5, the longitudinal driving mechanism includes, for example and without limitation, a longitudinal driving wheel 34, a longitudinal driven wheel, a longitudinal driving belt 35, and a longitudinal power mechanism, wherein,

the longitudinal driving wheel 34 and the longitudinal driven wheel are both rotationally connected to the transverse sliding seat 4;

the longitudinal transmission belt 35 is connected to the longitudinal driving wheel 34 and the longitudinal driven wheel and is connected with the longitudinal sliding seat 5;

the longitudinal power mechanism is connected with the longitudinal driving wheel 34 and is used for driving the longitudinal driving wheel 34 to rotate so as to drive the longitudinal sliding seat 5 to slide; in this embodiment, the longitudinal driving pulley 34 and the longitudinal driven pulley are both synchronous pulleys, and the longitudinal transmission belt 35 is a synchronous belt.

As shown in fig. 1 and 5, the longitudinal power mechanism is, for example and without limitation, a structure including a longitudinal motor, a longitudinal main drive wheel 36, a longitudinal slave drive wheel, and a longitudinal drive belt, wherein,

the longitudinal motor is arranged on the transverse sliding seat 4;

the longitudinal main driving wheel 36 is connected to the longitudinal motor;

the longitudinal driven wheel is connected to the longitudinal driving wheel 34;

the longitudinal driving belt is connected to the longitudinal main driving wheel 36 and the longitudinal auxiliary driving wheel, so that the longitudinal motor drives the longitudinal main driving wheel 36 to rotate, and further drives the longitudinal auxiliary driving wheel and the longitudinal driving wheel 34 to rotate; in this embodiment, the longitudinal primary driving wheel 36 and the longitudinal secondary driving wheel are both synchronous pulleys, and the longitudinal driving belt is a synchronous belt.

The working principle of the utility model is as follows:

the pressing plate seat driving assembly drives the pressing plate seat 23 to slide on the longitudinal sliding seat 5 and drives the cloth pressing plate 3 to press cloth on the table top 1, the pressing cylinder 7 drives the pressing seat 8 to slide and drives the bag pressing piece assembly to move into the bag piece groove 6 so as to press the bag piece, and then the cloth and the bag piece are driven by the transverse driving mechanism and the longitudinal driving mechanism to move to the sewing machine head on the table top 1 so that the sewing machine head can sew the bag piece on the cloth. And a sewing gap 9 for sewing the bag piece is formed between the bag piece pressing piece and the edge of the bag piece groove 6, a sewing machine head sews in the sewing gap 9, so that the bag piece is smoothly pressed on the cloth, the edge of the bag piece is ensured to be neat, after the sewing machine head sews along the sewing gap 9 for one time, the pressing piece driving mechanism drives the bag piece pressing piece to slide on the pressing seat 8 so as to expand the width of the sewing gap 9, and then the sewing machine head sews along the sewing gap 9 for one time, so that the sewing quality of the bag piece is improved, and the yield is improved.

The above-mentioned embodiments further explain in detail the technical problems, technical solutions and advantages solved by the present invention, and it should be understood that the above only is a specific embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

In the description of the present invention, it is to be understood that the terms indicating orientation or positional relationship are based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the equipment or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not imply that the components are required to be absolutely horizontal or overhang, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the present disclosure, unless otherwise expressly stated or limited, the first feature may comprise both the first and second features directly contacting each other, and also may comprise the first and second features not being directly contacting each other but being in contact with each other by means of further features between them. Also, the first feature being above, on or above the second feature includes the first feature being directly above and obliquely above the second feature, or merely means that the first feature is at a higher level than the second feature. A first feature that underlies, and underlies a second feature includes a first feature that is directly under and obliquely under a second feature, or simply means that the first feature is at a lesser level than the second feature.

Claims

1. A material moving device for a pocket patching machine is arranged on a frame (2) provided with a table top (1), the table top (1) is loaded with cloth and pocket sheets, the pocket sheets are stacked on the cloth, the material moving device is characterized by comprising a pocket pressing sheet component, a pocket pressing sheet driving mechanism, a cloth pressing plate (3), a pressing plate driving mechanism, a transverse sliding seat (4), a transverse driving mechanism, a longitudinal sliding seat (5) and a longitudinal driving mechanism, wherein,

the transverse sliding seat (4) is connected to the rack (2) in a transverse sliding manner;

the transverse driving mechanism is connected with the transverse sliding seat (4) and is used for driving the transverse sliding seat (4) to slide along the transverse direction;

the longitudinal sliding seat (5) is connected to the transverse sliding seat (4) in a sliding manner along the longitudinal direction;

the longitudinal driving mechanism is arranged on the transverse sliding seat (4), is connected with the longitudinal sliding seat (5) and is used for driving the longitudinal sliding seat (5) to slide along the longitudinal direction;

the cloth pressing plate (3) is arranged on the pressing plate driving mechanism and is provided with a bag piece groove (6);

the pressing plate driving mechanism is arranged on the longitudinal sliding seat (5) and is used for driving the cloth pressing plate (3) to move to be abutted against cloth on the desktop (1) so as to press the cloth;

the bag pressing sheet driving mechanism is arranged on the longitudinal sliding seat (5) and is used for driving the bag pressing sheet assembly to move into the bag sheet groove (6) and pressing the bag sheets stacked on the cloth.

2. The material moving apparatus for a bag sealer according to claim 1, wherein the bag pressing sheet driving mechanism includes a pressing cylinder (7) and a pressing base (8), wherein,

the bag pressing piece assembly is arranged on the pressing seat (8);

the pressing seat (8) is matched on the longitudinal sliding seat (5) in a sliding way;

the pressing cylinder (7) is installed on the longitudinal sliding seat (5) and connected with the pressing seat (8), so that the pressing cylinder (7) drives the pressing seat (8) to slide and drives the bag pressing piece assembly to move into the bag piece groove (6) to press the bag pieces.

3. The material moving apparatus for a bag applicator as claimed in claim 2, wherein the bag presser assembly includes a plurality of bag presser plates and a presser plate drive mechanism, wherein,

the bag sheet pressing sheet is connected to the pressing seat (8) in a sliding mode, is positioned in the bag sheet groove (6) and forms a sewing gap (9) used for sewing the bag sheet with the edge of the bag sheet groove (6);

the pressing sheet driving mechanism is installed on the pressing seat (8), and the pressing sheet driving mechanism is connected with all the bag sheet pressing sheets and used for driving the bag sheet pressing sheets to slide on the pressing seat (8) so as to adjust the distance between the bag sheet pressing sheets and the edge of the bag sheet groove (6).

4. The material moving device for a pocket patch machine according to claim 3,

the number of the bag piece pressing sheets is 3, and the bag piece pressing sheets are respectively a left pressing sheet (10), a bottom pressing sheet (11) and a right pressing sheet (12) which are sequentially arranged along the edge of the bag piece groove (6);

the tablet pressing driving mechanism comprises a driving cylinder (13), a bottom connecting rod (14), at least one left connecting rod (15) and at least one right connecting rod (16), wherein,

the left pressing piece (10), the bottom pressing piece (11) and the right pressing piece (12) are connected to the pressing seat (8) in a sliding mode;

the driving cylinder (13) is arranged on the pressing seat (8);

one end part of the bottom connecting rod (14) is connected to the bottom pressing sheet (11), and the other end part of the bottom connecting rod (14) is connected with the driving cylinder (13);

one end of the left connecting rod (15) is connected with the left pressing sheet (10), and the other end of the left connecting rod (15) is connected with the bottom connecting rod (14);

one end of the right connecting rod (16) is connected with the right pressing piece (12), the other end of the right connecting rod (16) is connected with the bottom connecting rod (14), so that the driving cylinder (13) drives the bottom connecting rod (14) to move, and the left pressing piece (10), the bottom pressing piece (11) and the right pressing piece (12) are driven to slide on the pressing seat (8).

5. The material moving device for a pocket patch machine according to claim 4,

the number of the left connecting rods (15) is two, the pressing seat (8) is provided with left guide grooves (17) which correspond to the left connecting rods (15) one by one, the left pressing piece (10) is provided with left guide posts (18) which correspond to the left guide grooves (17) one by one and are matched in the corresponding left guide grooves (17) in a sliding manner, and the left connecting rods (15) are connected with the corresponding left guide posts (18);

the number of the right connecting rods (16) is two, the pressing seat (8) is provided with right guide grooves (19) which are in one-to-one correspondence with the right connecting rods (16), the right pressing sheet (12) is provided with right guide posts (20) which are in one-to-one correspondence with the right guide grooves (19) and are matched in the corresponding right guide grooves (19) in a sliding manner, and the right connecting rods (16) are connected with the corresponding right guide posts (20);

the pressing seat (8) is further provided with a bottom guide groove (21), the bottom pressing sheet (11) is provided with two bottom guide pillars (22) which are matched in the bottom guide groove (21) in a sliding mode, and the bottom connecting rod (14) is connected with one bottom guide pillar (22).

6. The material moving apparatus for a bag sealer according to claim 1, wherein the platen driving mechanism includes a platen base (23) and at least one platen base driving assembly including an actuating cylinder (24) and a deflector rod (25), wherein,

the cloth pressing plate (3) is connected to the pressing plate seat (23);

the pressing plate seat (23) is connected to the longitudinal sliding seat (5) in a sliding manner, and driving holes (26) which correspond to the pressing plate seat driving assemblies one by one are formed in the pressing plate seat (23);

the shifting rod (25) is rotatably connected to the longitudinal sliding seat (5), and one end of the shifting rod (25) extends into the corresponding driving hole (26);

the cylinder body of the actuating cylinder (24) is hinged to the longitudinal sliding seat (5), and the piston rod of the actuating cylinder (24) is connected with the shifting rod (25), so that the actuating cylinder (24) drives the shifting rod (25) to rotate, and one end of the shifting rod (25) is further moved to abut against the driving hole (26) to drive the pressing plate seat (23) to slide.

7. The material moving device for a pocket patching machine as claimed in claim 1, wherein the transverse driving mechanism comprises a transverse driving wheel (27), a transverse driven wheel (28), a transverse driving belt (29) and a transverse power mechanism, wherein,

the transverse driving wheel (27) and the transverse driven wheel (28) are both rotationally connected to the rack (2);

the transverse transmission belt (29) is connected to the transverse driving wheel (27) and the transverse driven wheel (28) and is connected with the transverse sliding seat (4);

the transverse power mechanism is connected with the transverse driving wheel (27) and is used for driving the transverse driving wheel (27) to rotate so as to drive the transverse sliding seat (4) to slide.

8. The material moving device for a bag sealer according to claim 7, wherein the lateral power mechanism includes a lateral motor (30), a lateral main driving wheel (31), a lateral slave driving wheel (32), and a lateral driving belt (33), wherein,

the transverse motor (30) is arranged on the frame (2);

the transverse main driving wheel (31) is connected to the transverse motor (30);

the transverse driven wheel (32) is connected to the transverse driving wheel (27);

the transverse driving belt (33) is connected to the transverse main driving wheel (31) and the transverse driven wheel (32), so that the transverse motor (30) drives the transverse main driving wheel (31) to rotate, and then drives the transverse driven wheel (32) and the transverse driving wheel (27) to rotate.

9. The material moving device for a pocket patch machine as claimed in claim 1, wherein the longitudinal driving mechanism comprises a longitudinal driving wheel (34), a longitudinal driven wheel, a longitudinal driving belt (35) and a longitudinal power mechanism, wherein,

the longitudinal driving wheel (34) and the longitudinal driven wheel are both rotationally connected to the transverse sliding seat (4);

the longitudinal transmission belt (35) is connected to the longitudinal driving wheel (34) and the longitudinal driven wheel and is connected with the longitudinal sliding seat (5);

the longitudinal power mechanism is connected with the longitudinal driving wheel (34) and used for driving the longitudinal driving wheel (34) to rotate so as to drive the longitudinal sliding seat (5) to slide.

10. The material moving device for a bag sealer according to claim 9, wherein the longitudinal power mechanism includes a longitudinal motor, a longitudinal main driving wheel (36), a longitudinal sub driving wheel, and a longitudinal driving belt, wherein,

the longitudinal motor is arranged on the transverse sliding seat (4);

the longitudinal main driving wheel (36) is connected to the longitudinal motor;

the longitudinal driven wheel is connected with the longitudinal driving wheel (34);

the longitudinal driving belt is connected to the longitudinal main driving wheel (36) and the longitudinal driven driving wheel, so that the longitudinal motor drives the longitudinal main driving wheel (36) to rotate, and further drives the longitudinal driven driving wheel and the longitudinal driving wheel (34) to rotate.