CN111873097A

CN111873097A - Weaving process dustpan forming equipment

Info

Publication number: CN111873097A
Application number: CN202010728984.0A
Authority: CN
Inventors: 马小龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-27
Filing date: 2020-07-27
Publication date: 2020-11-03
Anticipated expiration: 2040-07-27
Also published as: CN111873097B

Abstract

The invention relates to a forming device, in particular to a forming device of a weaving process dustpan. The invention aims to solve the technical problem of how to provide a weaving process dustpan forming device which can form a dustpan without manual operation and cut off redundant rattans without manual operation. In order to solve the technical problem, the invention provides a forming device of a weaving process dustpan, which comprises: the bottom plate is connected with a mounting frame; the supporting plate is connected to one side, close to the mounting frame, of the bottom plate; the other side of the bottom plate close to the mounting rack is connected with a support; the mounting frame is provided with a pressing component; and the supporting component is arranged on one side of the bottom plate close to the bracket. The supporting assembly can support the dustpan, and the pressing assembly can enable the dustpan on the supporting assembly to be molded, so that the dustpan is not required to be manually molded, time and labor are saved, and the molding efficiency can be improved.

Description

Weaving process dustpan forming equipment

Technical Field

The invention relates to a forming device, in particular to a forming device of a weaving process dustpan.

Background

The dustpan primarily woven by the rattans needs to be formed, redundant rattans on the dustpan after forming are cut off, the dustpan is generally manually extruded by a stick at present, the dustpan is formed, then the cutter is manually used for cutting off the redundant rattans, more time and energy are needed to be spent, the forming efficiency is low, and the labor intensity of a maker is high.

Therefore, the development of a dustpan forming device for knitting process which can form the dustpan without manual operation and cut off redundant rattans without manual operation is needed.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that a dustpan is required to be extruded by a stick manually to be molded and redundant rattans are required to be cut off manually by a cutter, and the technical problem to be solved is to provide a dustpan molding device for knitting process, which can mold the dustpan without manual operation and cut off redundant rattans without manual operation.

(2) Technical scheme

In order to solve the technical problem, the invention provides a forming device of a weaving process dustpan, which comprises: the bottom plate is connected with a mounting frame; the supporting plate is connected to one side, close to the mounting frame, of the bottom plate; the other side of the bottom plate close to the mounting rack is connected with a support; the mounting frame is provided with a pressing component; the supporting component is arranged on one side, close to the bracket, of the bottom plate; the cutting assembly is arranged on the bracket.

Preferably, the hold-down assembly comprises: the servo motor is arranged at the lower part of the inner side surface of the mounting frame; one side of the mounting rack is connected with a sliding block in a sliding manner; the end part of the sliding block is connected with the upper die; the upper part of the sliding block is connected with the guide post in a sliding way; the end part of the guide pillar is connected with the middle die; the return spring is connected between the middle die and the sliding block; the upper part of the mounting frame is rotatably connected with a first gear; the first gear is connected with a disc; the eccentric position of the disc is connected with a clamping column which is positioned in the sliding block; the side, close to the first gear, of the mounting rack is rotatably connected with the first half-tooth gear, and the first half-tooth gear is meshed with the first gear; the first half-tooth gear is connected with a flywheel; and a V-shaped belt is connected between the outer wall of the flywheel and the output shaft of the servo motor.

Preferably, the support assembly comprises: the bottom plate is connected with a support, and one side of the bottom plate close to the support is connected with the support; the lower die is connected to the support.

Preferably, the cutting assembly comprises: the upper part of one side in the bracket is connected with two racks in a sliding way; the rack is connected with a cutter; the upper part of the bracket is rotatably connected with two rotating shafts; the rotating shaft is connected with a second gear which is meshed with the rack; the end part of the rotating shaft is connected with a crank; the handle is connected to the crank.

Preferably, the device further comprises a transmission assembly, wherein the transmission assembly comprises: the flywheel is connected with the second half-tooth gear; the upper part of the support plate is rotatably connected with a rotating rod; one end of the rotating rod is connected with a third gear, and the third gear is meshed with the second half-tooth gear; the rotating rod is connected with a torsion spring, and the tail end of the torsion spring is connected with the support plate; one side of the support plate, which is close to the rotating rod, is connected with a limiting column; the other end of the rotating rod is connected with a contact rod, and the contact rod is in contact with the limiting column; the lower part of the support plate is rotatably connected with a rotating rod; the first belt assembly is connected between the rotating rod and the rotating rod; the end part of the rotating rod is connected with a fourth gear; a fifth gear is rotatably connected to one side, close to the fourth gear, of the support plate, and the fifth gear is meshed with the fourth gear; the second belt assembly is connected between the fourth gear and one of the rotating shafts; and a third belt assembly is connected between the fifth gear and the other rotating shaft.

Preferably, the method further comprises the following steps: the collecting box is connected between the lower parts of the inner side surfaces of the brackets in a sliding manner.

(3) Advantageous effects

1. The supporting assembly can support the dustpan, and the pressing assembly can enable the dustpan on the supporting assembly to be molded, so that the dustpan is not required to be manually molded, time and labor are saved, and the molding efficiency can be improved.

2. Can drive cutting assembly work through drive assembly, cutting assembly can amputate unnecessary rattan on the dustpan behind the shaping to need not artifical manual excision unnecessary rattan, can labour saving and time saving more, can further improve shaping efficiency.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the pressing assembly according to the present invention.

Fig. 3 is a right side view of the hold-down assembly of the present invention.

Fig. 4 is a schematic perspective view of the cutting assembly of the present invention.

Fig. 5 is a schematic perspective view of the transmission assembly of the present invention.

FIG. 6 is an enlarged view of the present invention A.

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

The labels in the figures are: 1-base plate, 11-mounting frame, 2-support plate, 3-support frame, 4-pressing component, 41-servo motor, 42-V-shaped belt, 43-flywheel, 44-first half-tooth gear, 45-first gear, 46-disc, 47-clamping column, 48-slide block, 49-upper die, 410-guide column, 411-reset spring, 412-middle die, 5-supporting component, 51-support column, 52-lower die, 6-cutting component, 61-cutter, 62-rack, 63-second gear, 64-rotating shaft, 65-crank, 66-handle, 7-transmission component, 71-second half-tooth gear, 72-third gear, 73-first belt component, 74-fourth gear, 75-a fifth gear, 76-a second belt component, 77-a third belt component, 78-a limiting column, 79-a contact rod, 710-a torsion spring, 711-a rotating rod, 712-a rotating rod and 8-a collecting box.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

The utility model provides a weaving technology dustpan former, as shown in fig. 1-5, including bottom plate 1, mounting bracket 11, extension board 2, support 3, push down subassembly 4, supporting component 5 and cutting component 6, bottom plate 1 top is connected with mounting bracket 11, bottom plate 1 top at the mounting bracket 11 rear side is connected with extension board 2, bottom plate 1 top at the mounting bracket 11 front side is connected with support 3, install push down subassembly 4 on the mounting bracket 11, supporting component 5 is installed at the inboard bottom plate 1 top of support 3, install cutting component 6 on the support 3.

The lower pressing component 4 comprises a servo motor 41, a V-shaped belt 42, a flywheel 43, a first half-tooth gear 44, a first gear 45, a disc 46, a clamping column 47, a slide block 48, an upper die 49, a guide column 410, a return spring 411 and a middle die 412, the servo motor 41 is installed on the lower portion of the inner side surface of the left side of the mounting frame 11, the slide block 48 is connected on the upper portion of the front side of the mounting frame 11 in a sliding manner, the upper die 49 is connected to the bottom of the slide block 48, the guide column 410 is connected to the bottom end of the guide column 410, the return spring 411 is connected between the top of the middle die 412 and the slide block 48, the first gear 45 is rotatably connected to the upper portion of the mounting frame 11, the disc 46 is connected to the front side of the first gear 45, the clamping column 47 is connected to the eccentric position of the front side surface of the disc 46, the clamping column 47 is, the first half-tooth gear 44 is engaged with the first gear 45, the rear side of the first half-tooth gear 44 is connected with the flywheel 43, and the V-shaped belt 42 is connected between the outer wall of the flywheel 43 and the belt pulley on the output shaft of the servo motor 41.

The supporting component 5 comprises a supporting column 51 and a lower die 52, the supporting column 51 is connected to the top of the bottom plate 1 on the inner side of the bracket 3, and the lower die 52 is connected to the top end of the supporting column 51.

Cutting assembly 6 is including cutter 61, rack 62, second gear 63, pivot 64, crank 65 and handle 66, support 3 rear portion upside slidingtype is connected with two racks 62, two racks 62 bilateral symmetry, rack 62 leading flank is connected with cutter 61, support 3 upper portion rotary type is connected with two pivots 64, two pivot 64 bilateral symmetry, the rear side in the pivot 64 is connected with second gear 63, second gear 63 and rack 62 mesh, pivot 64 front end is connected with crank 65, be connected with handle 66 on the crank 65.

When the dustpan is to be molded, the dustpan is manually placed on the lower die 52, the servo motor 41 is started to rotate clockwise, the servo motor 41 rotates clockwise to enable the flywheel 43 to rotate clockwise through the V-shaped belt 42, the flywheel 43 rotates clockwise to enable the first half-tooth gear 44 to rotate clockwise, the first half-tooth gear 44 rotates clockwise to enable the first gear 45 to rotate counterclockwise, the first gear 45 rotates counterclockwise to enable the disc 46 to rotate counterclockwise, the disc 46 rotates counterclockwise to enable the sliding block 48 to move downwards first through the clamping column 47, the sliding block 48 moves downwards to enable components on the sliding block to move downwards, the middle die 412 moves downwards to be in contact with the dustpan, the dustpan can be pressed and fixed, the upper die 49 moves downwards to squeeze the dustpan, and the dustpan is molded. After the dustpan is formed, the first half-tooth gear 44 is rotated clockwise to be not engaged with the first gear 45, and the first gear 45 stops rotating counterclockwise, so that the slider 48 stops moving downward, and the upper mold 49 stops moving downward. Then, the handle 66 on the right side is manually rotated counterclockwise to rotate the rotating shaft 64 on the right side counterclockwise, and the handle 66 on the left side is manually rotated clockwise to rotate the rotating shaft 64 on the left side clockwise, so that the two racks 62 can be close to each other through the second gears 63 on the left side and the right side, the two racks 62 can be close to each other to enable the two cutters 61 to be close to each other, and thus the two cutters 61 can cut off redundant rattans on the formed dustpan. After the excess rattan on the forming dustpan is cut off, the handle 66 on the right side is manually rotated clockwise and the handle 66 on the left side is manually rotated counterclockwise, so that the cutter 61 is reset. After the first half-tooth gear 44 is further rotated clockwise to be meshed with the first gear 45, the first gear 45 can be further rotated counterclockwise, so that the slide block 48 can be moved and reset through the clamping column 47, the upper die 49 and the middle die 412 can be moved and reset upwards, and after the slide block 48 is reset, the servo motor 41 is turned off, and then the formed dustpan is taken down. The operation is repeated, and the work of forming the dustpan can be repeated. Therefore, the supporting component 5 of the device can support the dustpan, the dustpan on the supporting component 5 can be molded by pressing the component 4 downwards, and the cutting component 6 can cut off redundant rattans on the molded dustpan; therefore, the dustpan is not required to be manually molded, time and labor can be saved, and the molding efficiency can be improved.

Example 2

On the basis of the embodiment 1, as shown in fig. 1 and fig. 5 to 7, the transmission assembly 7 further includes a transmission assembly 7, the transmission assembly 7 includes a second half-tooth gear 71, a third gear 72, a first belt assembly 73, a fourth gear 74, a fifth gear 75, a second belt assembly 76, a third belt assembly 77, a limiting post 78, a contact rod 79, a torsion spring 710, a rotating rod 711 and a rotating rod 712, the rear side of the transmission shaft of the flywheel 43 is connected with the second half-tooth gear 71, the upper portion of the support plate 2 is rotatably connected with the rotating rod 711, the front end of the rotating rod 711 is connected with the third gear 72, the third gear 72 is meshed with the second half-tooth gear 71, the rotating rod 711 is connected with the torsion spring 710, the front end of the torsion spring 710 is connected with the rear side surface of the support plate 2, the rear side surface of the right side of the rotating rod 711 is connected with the limiting post 78, the rear end of the rotating rod 711 is connected with the contact, a rotating rod 712 is rotatably connected to the lower portion of the support plate 2, a first belt assembly 73 is connected between the rotating rod 712 and the rotating rod 711, a fourth gear 74 is connected to the front end of the rotating rod 712, a fifth gear 75 is rotatably connected to the support plate 2 on the left side of the fourth gear 74, the fifth gear 75 is meshed with the fourth gear 74, a second belt assembly 76 is connected between the front side of a transmission shaft of the fourth gear 74 and the rotating shaft 64 on the right side, and a third belt assembly 77 is connected between the front side of the transmission shaft of the fifth gear 75 and the rotating shaft 64 on the left side.

The flywheel 43 rotates clockwise to drive the second half-tooth gear 71 to rotate clockwise, when the slider 48 stops moving downward, the second half-tooth gear 71 rotates clockwise to engage with the third gear 72, so that the second half-tooth gear 71 rotates clockwise to drive the third gear 72 to rotate counterclockwise, the third gear 72 rotates counterclockwise to drive the rotating rod 711 to rotate counterclockwise, and the torsion spring 710 is compressed accordingly. The rotating rod 711 rotates counterclockwise to rotate the rotating rod 712 counterclockwise through the first belt assembly 73, the rotating rod 712 rotates counterclockwise to drive the fourth gear 74 to rotate counterclockwise, the fourth gear 74 rotates counterclockwise to drive the fifth gear 75 to rotate clockwise, the fourth gear 74 rotates counterclockwise to drive the rotating shaft 64 on the right side to rotate counterclockwise through the second belt assembly 76, the fifth gear 75 rotates clockwise to drive the rotating shaft 64 on the left side to rotate clockwise through the third belt assembly 77, and thus the two cutters 61 can be close to each other. When the second half-tooth gear 71 rotates clockwise to be not meshed with the third gear 72, the third gear 72 stops rotating counterclockwise, the rotating rod 711 can be rotated clockwise to reset under the action of the torsion spring 710, and the rotating rod 711 can be prevented from rotating clockwise to over position under the action of the limiting column 78 and the contact rod 79. The rotating rod 711 rotates clockwise to reset, so that the two cutters 61 can reset, manual shaking of the handle 66 is not needed, time and labor can be saved, and forming efficiency can be further improved.

As shown in fig. 1, the device also comprises a collecting box 8, and the collecting box 8 is connected between the lower parts of the inner side surfaces of the brackets 3 in a sliding way.

The collecting box 8 can collect the redundant rattan after the excision to can be convenient for the staff to collect and clear up the redundant rattan after the excision.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A knitting technology dustpan former is characterized by comprising:

the bottom plate (1) is connected with a mounting frame (11);

the supporting plate (2) is connected to one side, close to the mounting frame (11), of the bottom plate (1);

the other side, close to the mounting frame (11), of the bottom plate (1) is connected with the support (3);

the mounting rack (11) is provided with a downward pressing component (4);

the supporting component (5) is arranged on one side, close to the bracket (3), of the bottom plate (1);

the cutting assembly (6) is arranged on the bracket (3).

2. The forming machine of dustpan of claim 1, wherein the pressing assembly (4) includes:

the servo motor (41) is mounted on the lower portion of the inner side face of the mounting frame (11);

one side of the mounting rack (11) is connected with the sliding block (48) in a sliding manner;

the end part of the sliding block (48) is connected with the upper die (49);

the upper part of the sliding block (48) is connected with the guide post (410) in a sliding way;

the middle die (412) is connected with the end part of the guide post (410);

the return spring (411) is connected between the middle die (412) and the sliding block (48);

the upper part of the mounting rack (11) is rotatably connected with the first gear (45);

the disc (46), the disc (46) is connected to the first gear (45);

the eccentric position of the disc (46) is connected with a clamping column (47), and the clamping column (47) is positioned in the sliding block (48);

the first half-tooth gear (44) is rotatably connected to one side, close to the first gear (45), of the mounting frame (11), and the first half-tooth gear (44) is meshed with the first gear (45);

the flywheel (43) is connected to the first half-tooth gear (44);

and a V-shaped belt (42) is connected between the outer wall of the flywheel (43) and the output shaft of the servo motor (41).

3. The forming apparatus of weaving dustpan according to claim 2, characterized in that the support assembly (5) includes:

the supporting column (51) is connected to one side, close to the support (3), of the bottom plate (1), and the supporting column (51) is located in the support (3);

the lower die (52) is connected to the support column (51).

4. The forming machine of weaving dustpan, according to claim 3, characterized in that the cutting assembly (6) comprises:

the upper part of one side in the bracket (3) is connected with two racks (62) in a sliding way;

the cutter (61), the rack (62) is connected with the cutter (61);

the upper part of the bracket (3) is rotatably connected with two rotating shafts (64);

the rotating shaft (64) is connected with a second gear (63), and the second gear (63) is meshed with the rack (62);

the end part of the rotating shaft (64) is connected with the crank (65);

the handle (66) is connected to the crank (65).

5. The forming apparatus of weaving dustpan according to claim 4, characterized in that it further comprises a transmission assembly (7), and the transmission assembly (7) includes:

the flywheel (43) is connected with the second half-tooth gear (71);

the upper part of the support plate (2) is rotatably connected with the rotating rod (711);

one end of the rotating rod (711) is connected with the third gear (72), and the third gear (72) is meshed with the second half-tooth gear (71);

the rotating rod (711) is connected with the torsion spring (710), and the tail end of the torsion spring (710) is connected with the support plate (2);

one side of the support plate (2) close to the rotating rod (711) is connected with the limiting column (78);

the other end of the rotating rod (711) is connected with a contact rod (79), and the contact rod (79) is in contact with the limiting column (78);

the lower part of the support plate (2) is rotatably connected with a rotating rod (712);

a first belt assembly (73), wherein the first belt assembly (73) is connected between the rotating rod (712) and the rotating rod (711);

a fourth gear (74), wherein the end part of the rotating rod (712) is connected with the fourth gear (74);

the fifth gear (75) is rotatably connected to one side, close to the fourth gear (74), of the support plate (2), and the fifth gear (75) is meshed with the fourth gear (74);

a second belt assembly (76), wherein the second belt assembly (76) is connected between the fourth gear (74) and one of the rotating shafts (64);

and a third belt component (77) is connected between the fifth gear (75) and the other rotating shaft (64).

6. The forming apparatus of knitting technology dustpan according to claim 5, characterized by further comprising:

the collecting box (8) is connected between the lower parts of the inner side surfaces of the brackets (3) in a sliding manner.