CN219603869U - Feeding assembly, feeding mechanism and template sewing machine - Google Patents

Abstract

The utility model provides a feeding assembly, a feeding mechanism and a template sewing machine, wherein the feeding assembly comprises: the first guide rail assembly comprises two first guide rails which are used for being movably connected with the X-axis feeding assembly; the first transmission belt is used for being connected with the X-axis feeding component; the first driving wheel assembly and the second driving wheel assembly are respectively arranged on the rack and/or are movably arranged; the first transmission wheel assembly and the second transmission wheel assembly are respectively positioned at two ends of the first guide rail, the first transmission belt is wound on the first transmission wheel assembly and the second transmission wheel assembly, and the movement direction of the first transmission belt is the same as the extension direction of the first guide rail; the first driving wheel assembly, the second driving wheel assembly and the first driving belt are all positioned between the two first guide rails. The Y-axis feeding assembly solves the problem that a Y-axis feeding assembly of a feeding mechanism of a template sewing machine in the prior art is complex in structure.

Description

Feeding assembly, feeding mechanism and template sewing machine

Technical Field

The utility model relates to the technical field of sewing machines, in particular to a feeding assembly, a feeding mechanism and a template sewing machine.

Background

The type of sewing machine comprises a template sewing machine, the template sewing machine is provided with a feeding mechanism, the existing feeding mechanism mostly adopts a screw thread transmission mode for feeding, and the screw thread transmission feeding mode has the defects of high noise and low transmission speed, so the feeding mechanism driven by a first transmission belt is provided in the prior art to solve the problems of the screw thread transmission mode.

However, the existing Y-axis direction feeding assembly of the feeding mechanism driven by the first driving belt generally includes two first guide rail assemblies, each of the two first guide rail assemblies includes a first driving belt and a moving first guide rail, and the first driving belt is disposed on the moving first guide rail, so that the two first driving belts are required to be disposed, so that the feeding mechanism has more parts, complex structure and higher production cost.

Disclosure of Invention

The utility model mainly aims to provide a feeding assembly, a feeding mechanism and a template sewing machine, so as to solve the problem that a Y-axis feeding assembly of a feeding mechanism of the template sewing machine in the prior art is complex in structure.

In order to achieve the above object, according to one aspect of the present utility model, there is provided a feeding assembly comprising: the first guide rail assembly comprises two first guide rails which are used for being installed on a frame of the template sewing machine and are used for being movably connected with the X-axis feeding assembly; the first transmission belt is used for being connected with the X-axis feeding assembly; the first transmission wheel assembly and the second transmission wheel assembly are respectively arranged on the rack and are/is movably arranged; the first driving wheel assembly and the second driving wheel assembly are respectively positioned at two ends of the first guide rail along the extending direction of the first guide rail, and the first driving belt is wound on the first driving wheel assembly and the second driving wheel assembly so as to enable the first driving belt to form an annular structure, and the moving direction of the first driving belt is the same as the extending direction of the first guide rail; the first driving wheel assembly, the second driving wheel assembly and the first driving belt are all positioned between the two first guide rails.

Further, the feeding assembly further comprises: the mounting plate is used for being mounted on the frame, and the two first guide rails are arranged on the mounting plate; wherein, two first guide rails set up along the width direction interval of mounting panel, and the extending direction of each first guide rail is the length direction of mounting panel.

Further, the mounting plate comprises a first plate section and two second plate sections which are connected with each other; along the width direction of first board section, two second board sections are located the both sides of first board section respectively, and the thickness of two second board sections is all less than the thickness of first board section to form spacing step between messenger's first board section and two second board sections, each first guide rail and the spacing cooperation of corresponding spacing step.

Further, the first driving wheel assembly comprises a first mounting seat, a first driving wheel and a first driving shaft, the first mounting seat is connected with the mounting plate, the first driving shaft is connected with the first mounting seat, and the first driving wheel is rotatably sleeved on the first driving shaft; the second transmission wheel assembly comprises a second mounting seat, a second transmission wheel and a second transmission shaft, the second mounting seat is connected with the mounting plate, the second transmission shaft is connected with the second mounting seat, and the second transmission wheel is rotatably sleeved on the second transmission shaft; wherein at least part of the first mount and at least part of the second mount overlap the mounting plate.

Further, the first mount and the second mount each include: the mounting bottom plate at least partially extends to the lower part of the mounting plate and is connected with the mounting plate; the two supporting plates are oppositely arranged, the two supporting plates are arranged on the mounting bottom plate, and the first transmission shaft or the second transmission shaft is arranged on the two supporting plates in a penetrating mode.

Further, the feeding assembly further comprises: a first driving part mounted on the mounting plate; the first driving part is in driving connection with the driving wheel so as to drive the driving wheel to rotate; the third transmission wheel and the second transmission belt are wound on the driving wheel and the third transmission wheel, and the third transmission wheel is in transmission connection with the first transmission wheel assembly so as to drive the third transmission wheel and the second transmission belt to move through the rotation of the driving wheel, thereby driving the first transmission wheel assembly, the second transmission wheel assembly and the first transmission belt to move; the first driving part is positioned below the first driving wheel assembly, and the movement direction of the second driving belt is perpendicular to the movement direction of the first driving belt.

Further, the feeding assembly includes a connection structure including: the plurality of sliding blocks are movably arranged on the two first guide rails; the connecting support is used for being connected with the X-axis feeding assembly, the connecting support is connected with the two sliding blocks, the first driving belt is provided with a first driving belt section and a second driving belt section which are oppositely arranged, the first driving belt section is positioned above the second driving belt section, and at least part of the connecting support is penetrated between the first driving belt section and the second driving belt section and is fixedly connected with the first driving belt section.

Further, the connection support includes: the feeding plate is connected with the two sliding blocks, penetrates through the space between the two first transmission belt sections and is fixedly connected with the first transmission belt sections; the connecting bulges are respectively distributed on two sides of the first transmission belt, and each connecting bulge is arranged on the feeding plate; the feeding seat is used for being connected with the X-axis feeding assembly and is connected with the plurality of connecting protrusions; wherein, along the distribution direction of second drive belt section to first drive belt section, the connection protrusion is protruding in first drive belt section to make pay-off seat first drive belt section interval setting.

According to a second aspect of the present utility model, there is provided a feeding mechanism comprising a Y-axis feeding assembly, the Y-axis feeding assembly being the feeding assembly described above; and the X-axis feeding assembly is arranged on the Y-axis feeding assembly.

According to a third aspect of the present utility model, there is provided a template sewing machine comprising: the feeding mechanism; the bedplate, the feeding mechanism is installed on the bedplate; the sewing machine body is arranged on the bedplate and is arranged at intervals with the feeding mechanism.

By applying the technical scheme of the utility model, the utility model provides a feeding assembly, which comprises the following components: the first guide rail assembly comprises two first guide rails which are used for being installed on a frame of the template sewing machine and are used for being movably connected with the X-axis feeding assembly; the first transmission belt is used for being connected with the X-axis feeding assembly; the first transmission wheel assembly and the second transmission wheel assembly are respectively arranged on the rack and are/is movably arranged; the first driving wheel assembly and the second driving wheel assembly are respectively positioned at two ends of the first guide rail along the extending direction of the first guide rail, and the first driving belt is wound on the first driving wheel assembly and the second driving wheel assembly so as to enable the first driving belt to form an annular structure, and the moving direction of the first driving belt is the same as the extending direction of the first guide rail; the first driving wheel assembly, the second driving wheel assembly and the first driving belt are all positioned between the two first guide rails. Through the arrangement, the feeding assembly can be provided with only one transmission belt, the structure of the feeding assembly is simplified, and meanwhile, the feeding assembly is connected with the X-axis feeding assembly through the two first guide rails, so that the X-axis feeding assembly moves stably on the feeding assembly.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

FIG. 1 shows a schematic overall construction of an embodiment of a feed assembly according to the present utility model;

FIG. 2 shows a schematic overall structure of an embodiment of a feeding mechanism according to the present utility model;

fig. 3 shows a schematic structural view of an X-axis feeding assembly of the feeding mechanism according to the present utility model.

Wherein the above figures include the following reference numerals:

1. a Y-axis feeding assembly; 10. a first rail assembly; 3. a frame; 111. a first guide rail; 11. a first belt; 2. an X-axis feeding assembly; 12. a first drive wheel assembly; 13. a second drive wheel assembly; 14. a mounting plate; 120. a first mount; 121. a first driving wheel; 122. a first drive shaft; 130. a second mounting base; 131. a second driving wheel; 132. a second drive shaft; 1201. a mounting base plate; 1202. a support plate; 16. a first driving part; 17. a third driving wheel; 18. a second belt; 15. a connection structure; 150. a slide block; 151. the connecting support is connected; 1510. a feeding plate; 1511. a connection protrusion; 1512. a feeding seat; 20. a second rail assembly; 21. a material pressing structure; 210. a pressing driving part; 211. a press mounting part; 22. a second driving part; 23. a connecting piece; 110. a first belt segment.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

Referring to fig. 1 to 3, the present utility model provides a feeding assembly, including: a first rail assembly 10, the first rail assembly 10 comprising two first rails 111 for mounting on the frame 3 of the template sewing machine, the two first rails 111 for movable connection with the X-axis feed assembly 2; the first transmission belt 11 is used for being connected with the X-axis feeding assembly 2; a first drive wheel assembly 12 and a second drive wheel assembly 13, the first drive wheel assembly 12 and the second drive wheel assembly 13 being each for mounting on the frame 3, the first drive wheel assembly 12 and/or the second drive wheel assembly 13 being movably arranged; along the extending direction of the first guide rail 111, the first driving wheel assembly 12 and the second driving wheel assembly 13 are respectively positioned at two ends of the first guide rail 111, and the first driving belt 11 is wound on the first driving wheel assembly 12 and the second driving wheel assembly 13, so that the first driving belt 11 forms an annular structure, and the moving direction of the first driving belt 11 is the same as the extending direction of the first guide rail 111; wherein the first drive wheel assembly 12, the second drive wheel assembly 13 and the first drive belt 11 are each located between two first guide rails 111. Through the arrangement, the feeding assembly can be provided with only one transmission belt, the structure of the feeding assembly is simplified, and meanwhile, the feeding assembly is connected with the X-axis feeding assembly 2 through the two first guide rails, so that the X-axis feeding assembly 2 moves stably on the feeding assembly.

In the present utility model, the feeding assembly further comprises: a mounting plate 14 for mounting on the frame 3, both first guide rails 111 being provided on the mounting plate 14; wherein, two first guide rails 111 are arranged at intervals along the width direction of the mounting plate 14, and the extending direction of each first guide rail 111 is the length direction of the mounting plate 14. In this way, the installation of the rail assembly can be made reliable.

Preferably, the mounting plate 14 comprises a first plate section and two second plate sections connected to each other; along the width direction of first board section, two second board sections are located the both sides of first board section respectively, and the thickness of two second board sections is all less than the thickness of first board section to form spacing step between first board section and two second board sections, each first guide rail 111 and the spacing cooperation of corresponding spacing step, in order to conveniently fix a position two first guide rails, improve the installation accuracy of first guide rail.

Specifically, the first driving wheel assembly 12 includes a first mounting seat 120, a first driving wheel 121 and a first driving shaft 122, the first mounting seat 120 is connected with the mounting plate 14, the first driving shaft 122 is connected with the first mounting seat 120, and the first driving wheel 121 is rotatably sleeved on the first driving shaft 122; the second driving wheel assembly 13 comprises a second mounting seat 130, a second driving wheel 131 and a second driving shaft 132, the second mounting seat 130 is connected with the mounting plate 14, the second driving shaft 132 is connected with the second mounting seat 130, and the second driving wheel 131 is rotatably sleeved on the second driving shaft 132; wherein at least a portion of the first mount 120 and at least a portion of the second mount 130 overlap the mounting plate 14 to provide a compact configuration between the first and second drive wheel assemblies, the mounting plate and the first rail assembly 10 and to provide stable mounting of the first and second drive wheel assemblies.

To prevent interference between the first belt and the mounting plate 14, the first mount 120 and the second mount 130 each include: a mounting base plate 1201, at least a portion of the mounting base plate 1201 extending below the mounting plate 14 and being connected to the mounting plate 14; two oppositely arranged support plates 1202, both support plates 1202 are arranged on the mounting base plate 1201, and the first transmission shaft 122 or the second transmission shaft 132 is arranged on both support plates 1202 in a penetrating manner.

To enable automated movement of the first belt, the feed assembly further comprises: a first drive member 16, the first drive member 16 being mounted on the mounting plate 14; a drive wheel, the first drive member 16 being in driving connection with the drive wheel for driving the drive wheel in rotation; the third transmission wheel 17 and the second transmission belt 18 are wound on the driving wheel and the third transmission wheel 17, the third transmission wheel 17 is in transmission connection with the first transmission wheel assembly 12, and the third transmission wheel 17 and the second transmission belt 18 are driven to move by the rotation of the driving wheel, so that the first transmission wheel assembly 12, the second transmission wheel assembly 13 and the first transmission belt 11 are driven to move; wherein the first drive member 16 is located below the first drive wheel assembly 12 to provide a compact structure between the first drive member 16, the first drive wheel assembly and the mounting plate, and the direction of movement of the second drive belt 18 is perpendicular to the direction of movement of the first drive belt 11. Wherein the first driving part 16 is a first driving motor; the first driving wheel, the second driving wheel and the third driving wheel are all driving belt wheels.

To further smooth the movement of the X-axis feed assembly, the feed assembly of the present utility model includes a connecting structure 15, the connecting structure 15 comprising: a plurality of sliders 150, at least one slider 150 being movably provided to each of the two first guide rails 111; the connection support 151 is used for being connected with the X-axis feeding assembly 2, the connection support 151 is connected with the two sliding blocks 150, the first driving belt 11 is provided with a first driving belt section 110 and a second driving belt section which are oppositely arranged, the first driving belt section 110 is positioned above the second driving belt section, and at least part of the connection support 151 is penetrated between the first driving belt section 110 and the second driving belt section and is fixedly connected with the first driving belt section 110.

Specifically, the connection mount 151 includes: the feeding plate 1510, the feeding plate 1510 is connected with the two sliding blocks 150, and the feeding plate 1510 is arranged between the two first driving belt sections 110 in a penetrating way and is fixedly connected with the first driving belt sections 110; a plurality of connection protrusions 1511, the plurality of connection protrusions 1511 being respectively distributed on both sides of the first belt 11, each connection protrusion 1511 being disposed on the feeding plate 1510; the feeding seat 1512 is used for being connected with the X-axis feeding assembly 2, and the feeding seat 1512 is connected with the plurality of connecting protrusions 1511; the connection protrusions 1511 protrude from the first belt segment 110 along the distribution direction from the second belt segment to the first belt segment 110, so that the first belt segment 110 of the feeding seat 1512 is disposed at intervals. By the above arrangement, interference between the X-axis feeding assembly connected to the feeding seat 1512 and the first belt can be prevented, so that the movement of the X-axis feeding assembly is reliable.

The utility model also provides a feeding mechanism, which comprises a Y-axis feeding assembly 1, wherein the Y-axis feeding assembly 1 is the feeding assembly; x-axis feeding assembly 2, X-axis feeding assembly 2 is mounted on Y-axis feeding assembly.

The X-axis feeding assembly 2 comprises a second guide rail assembly 20, the second guide rail assembly 20 is movably arranged on the Y-axis feeding assembly, the second guide rail assembly 20 comprises a second guide rail, and the extending direction of the second guide rail is perpendicular to the extending direction of the first guide rail; the material pressing structure 21 is movably arranged on the second guide rail assembly 20, the material pressing structure 21 is arranged on the second guide rail assembly 20, the material pressing structure 21 comprises a material pressing driving component 210, the material pressing driving component is in driving connection with the contact component so as to drive the contact component to contact with the cloth through the material pressing driving component 210, the cloth is pressed on a platen of the sewing machine, the X-axis feeding assembly drives the cloth to move along the extending direction of the second guide rail, and the cloth moves along the extending direction of the first guide rail through the movement of the X-axis feeding assembly on the Y-axis feeding assembly.

Specifically, the press structure 21 further includes a press mounting member 211, and the press mounting member 211 is movably mounted on the second rail.

Specifically, the X-axis feeding assembly further comprises: a second driving part 22, the second driving part 22 being mounted on the second rail; the connecting piece 23, the connecting piece 23 is installed on the second guide rail and is located on the wall surface of one side of the second guide rail away from the mounting plate 14, and the connecting piece 23 comprises a connecting plate and a connecting strip, and at least part of the connecting strip can be arranged in a bending mode, so that the connecting strip is provided with a first connecting section and a second connecting section which are oppositely arranged, the first connecting section is connected with the connecting plate, and the connecting plate is connected with the feeding seat 1512.

The utility model also provides a template sewing machine, comprising: the feeding mechanism; the bedplate, the feeding mechanism is installed on the bedplate; the sewing machine body is arranged on the bedplate and is arranged at intervals with the feeding mechanism.

From the above description, it can be seen that the above embodiments of the present utility model achieve the following technical effects:

the utility model provides a feeding assembly, comprising: a first rail assembly 10, the first rail assembly 10 comprising two first rails 111 for mounting on the frame 3 of the template sewing machine, the two first rails 111 for movable connection with the X-axis feed assembly 2; the first transmission belt 11 is used for being connected with the X-axis feeding assembly 2; a first drive wheel assembly 12 and a second drive wheel assembly 13, the first drive wheel assembly 12 and the second drive wheel assembly 13 being each for mounting on the frame 3, the first drive wheel assembly 12 and/or the second drive wheel assembly 13 being movably arranged; along the extending direction of the first guide rail 111, the first driving wheel assembly 12 and the second driving wheel assembly 13 are respectively positioned at two ends of the first guide rail 111, and the first driving belt 11 is wound on the first driving wheel assembly 12 and the second driving wheel assembly 13, so that the first driving belt 11 forms an annular structure, and the moving direction of the first driving belt 11 is the same as the extending direction of the first guide rail 111; wherein the first drive wheel assembly 12, the second drive wheel assembly 13 and the first drive belt 11 are each located between two first guide rails 111. Through the arrangement, the feeding assembly can be provided with only one transmission belt, the structure of the feeding assembly is simplified, and meanwhile, the feeding assembly is connected with the X-axis feeding assembly 2 through the two first guide rails, so that the X-axis feeding assembly 2 moves stably on the feeding assembly.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. A feed assembly, comprising:

a first rail assembly (10), the first rail assembly (10) comprising two first rails (111) for mounting on a frame (3) of a template sewing machine, the two first rails (111) for movable connection with an X-axis feed assembly (2);

the first transmission belt (11) is used for being connected with the X-axis feeding assembly (2);

a first transmission wheel assembly (12) and a second transmission wheel assembly (13), wherein the first transmission wheel assembly (12) and the second transmission wheel assembly (13) are respectively arranged on the frame (3), and the first transmission wheel assembly (12) and/or the second transmission wheel assembly (13) are/is movably arranged; the first driving wheel assembly (12) and the second driving wheel assembly (13) are respectively positioned at two ends of the first guide rail (111) along the extending direction of the first guide rail (111), and the first driving belt (11) is wound on the first driving wheel assembly (12) and the second driving wheel assembly (13) so that the first driving belt (11) forms an annular structure, and the moving direction of the first driving belt (11) is the same as the extending direction of the first guide rail (111);

wherein the first transmission wheel assembly (12), the second transmission wheel assembly (13) and the first transmission belt (11) are all positioned between the two first guide rails (111).

2. The feed assembly of claim 1, further comprising:

the mounting plate (14) is used for being mounted on the frame (3), and the two first guide rails (111) are arranged on the mounting plate (14);

the two first guide rails (111) are arranged at intervals along the width direction of the mounting plate (14), and the extending direction of each first guide rail (111) is the length direction of the mounting plate (14).

3. The feeding assembly according to claim 2, wherein the mounting plate (14) comprises a first plate section and two second plate sections connected to each other; along the width direction of the first plate section, two second plate sections are respectively positioned at two sides of the first plate section, the thickness of each second plate section is smaller than that of the first plate section, so that a limit step is formed between the first plate section and the two second plate sections, and each first guide rail (111) is in limit fit with the corresponding limit step.

4. The feed assembly of claim 2, wherein the feed assembly comprises a plurality of feed rollers,

the first transmission wheel assembly (12) comprises a first mounting seat (120), a first transmission wheel (121) and a first transmission shaft (122), the first mounting seat (120) is connected with the mounting plate (14), the first transmission shaft (122) is connected with the first mounting seat (120), and the first transmission wheel (121) is rotatably sleeved on the first transmission shaft (122);

the second transmission wheel assembly (13) comprises a second mounting seat (130), a second transmission wheel (131) and a second transmission shaft (132), wherein the second mounting seat (130) is connected with the mounting plate (14), the second transmission shaft (132) is connected with the second mounting seat (130), and the second transmission wheel (131) is rotatably sleeved on the second transmission shaft (132);

wherein at least part of the first mount (120) and at least part of the second mount (130) overlap the mounting plate (14).

5. The feed assembly of claim 4, wherein the first mount (120) and the second mount (130) each comprise:

-a mounting plate (1201), at least part of the mounting plate (1201) extending below the mounting plate (14) and being connected to the mounting plate (14);

two opposite supporting plates (1202), wherein the two supporting plates (1202) are arranged on the mounting bottom plate (1201), and the first transmission shaft (122) or the second transmission shaft (132) is arranged on the two supporting plates (1202) in a penetrating way.

6. The feed assembly of claim 2, further comprising:

a first drive member (16), the first drive member (16) being mounted on the mounting plate (14);

the first driving part (16) is in driving connection with the driving wheel so as to drive the driving wheel to rotate;

a third driving wheel (17) and a second driving belt (18), wherein the second driving belt (18) is wound on the driving wheel and the third driving wheel (17), the third driving wheel (17) is in driving connection with the first driving wheel assembly (12) so as to drive the third driving wheel (17) and the second driving belt (18) to move through the rotation of the driving wheel, and thus the first driving wheel assembly (12), the second driving wheel assembly (13) and the first driving belt (11) are driven to move;

wherein the first driving part (16) is positioned below the first driving wheel assembly (12), and the movement direction of the second driving belt (18) is perpendicular to the movement direction of the first driving belt (11).

7. The feeding assembly according to claim 1, characterized in that the feeding assembly comprises a connection structure (15), the connection structure (15) comprising:

a plurality of sliders (150), at least one slider (150) being movably provided to each of the first guide rails (111);

the connecting support (151) is used for being connected with the X-axis feeding assembly (2), the connecting support (151) is connected with the two sliding blocks (150), the first driving belt (11) is provided with a first driving belt section (110) and a second driving belt section which are oppositely arranged, the first driving belt section (110) is located above the second driving belt section, and at least part of the connecting support (151) is penetrated between the first driving belt section (110) and the second driving belt section and is fixedly connected with the first driving belt section (110).

8. The feeding assembly according to claim 7, wherein the connection mount (151) comprises:

the feeding plate (1510) is connected with the two sliding blocks (150), and the feeding plate (1510) is arranged between the two first driving belt sections (110) in a penetrating way and is fixedly connected with the first driving belt sections (110);

a plurality of connection protrusions (1511), wherein the connection protrusions (1511) are respectively distributed on two sides of the first transmission belt (11), and each connection protrusion (1511) is arranged on the feeding plate (1510);

a feeding seat (1512) for connecting with the X-axis feeding assembly (2), wherein the feeding seat (1512) is connected with a plurality of connecting protrusions (1511);

the connecting protrusions (1511) protrude from the first driving belt section (110) along the distribution direction from the second driving belt section to the first driving belt section (110), so that the feeding seat (1512) is arranged at intervals on the first driving belt section (110).

9. A feeding mechanism, which is characterized by comprising

A Y-axis feed assembly, the Y-axis feed assembly being the feed assembly of any one of claims 1 to 8;

and the X-axis feeding assembly (2) is arranged on the Y-axis feeding assembly.

10. A template sewing machine, comprising:

the feed mechanism of claim 9;

the feeding mechanism is arranged on the bedplate;

the sewing machine body is arranged on the bedplate, and the sewing machine body and the feeding mechanism are arranged at intervals.