CN220744424U - Feeding device - Google Patents

Abstract

The utility model provides a feeding device, which is applied to the technical field of ironing machines, and the technical scheme is as follows: the device comprises a main body mounting plate, a filler rod material channel arranged in the main body mounting plate and a guide chute for guiding filler rods conveyed along the filler rod material channel to the ironing module; the main body mounting plate is provided with a gas blowing hole group and a material pressing hole, and the gas blowing hole group is positioned above the material pressing hole; the air blowing hole group is connected with an air blowing device which blows air in the molding material channel and forms flowing air flow in the molding material channel to suck the molding into the pressing hole, and the mounting plate is provided with a conveying mechanism which is used for pressing the molding in the pressing hole and limiting the molding to be discharged from the lower port of the molding material channel and enter the guide chute; the mounting plate is provided with a blowing component for limiting the insertion strip to be conveyed to the stamping module along the guide chute; the method has the technical effects that: the molding machine can stably and accurately convey the molding to the stamping module, realize automatic feeding and improve production efficiency.

Description

Feeding device

Technical Field

The utility model relates to the technical field of ironing machines, in particular to a feeding device.

Background

Along with the continuous development of society and the improvement of the physical culture living standard, the requirements of people on clothes are higher and higher, and everyone hopes to wear comfortable and graceful clothes which can fully embody the instruments of the people, and the clothes are very attractive to wear. Therefore, the fillets are often ironed on some cloth materials, nylon materials, to increase the structural properties and functions of the materials;

the existing molding processing technology is not ideal, and the molding is required to be pressed by manually superposing the molding and the cloth to be spliced; however, the manual splicing precision is low; if the ironing machine equipment is used for automatically superposing the embedded strips and splicing the cloth, the embedded strips are relatively soft in material due to relatively long length, so that the embedded strips are not easy to convey to the ironing module to be ironed and pressed with the cloth to be spliced, and the production efficiency is reduced.

Disclosure of Invention

The utility model aims to provide a feeding device which has the advantages of being capable of stably and accurately conveying a filler rod to a stamping module, realizing automatic feeding and improving production efficiency.

To achieve the above and other related objects, the present utility model provides the following technical solutions:

a feeding device comprises a main body mounting plate, a filler rod material channel arranged in the main body mounting plate and a guide chute for guiding filler rods conveyed along the filler rod material channel to a ironing module;

the main body mounting plate is provided with a gas blowing hole group and a material pressing hole, and the gas blowing hole group is positioned above the material pressing hole;

the air blowing hole group is connected with an air blowing device which blows air in the molding material channel and forms flowing air flow in the molding material channel to suck the molding into the pressing hole;

the mounting plate is provided with a conveying mechanism for pressing the embedded strips in the material pressing holes and limiting the embedded strips to be discharged from the lower ports of the embedded strip material channels and enter the guide chute;

the mounting plate is provided with a blowing component used for limiting the conveying of the embedded strips to the ironing module along the guide chute.

Through the technical scheme, the main body mounting plate is a mounting main body; the filler rod material channel is used for conveying filler rods, so that the filler rods are prevented from being wound and knotted in the conveying process; the guide chute is used for guiding the insertion strip in the insertion strip material channel to the ironing module and combining the insertion strip guide ironing module with the cloth to be spliced for ironing; the air blowing hole group connected with the air blowing device is used for blowing out air in the molding material channel, so that flowing air flow is formed in the molding material channel, the molding in the molding material channel is sucked into the pressing hole, and automatic conveying of the molding in the molding material channel is realized; the conveying mechanism is used for pressing the embedded strip positioned in the material pressing hole, limiting the embedded strip to be discharged from the lower port of the embedded strip material channel and enter the guide chute; the blowing component is used for limiting the insertion strips to be conveyed to the ironing module along the guide chute; therefore, the device can stably and accurately convey the embedded strips to the stamping module, realize automatic feeding and improve production efficiency.

In an embodiment of the utility model, the air hole group includes a first air hole and a second air hole which are formed on the side wall of the main body mounting plate;

the first air blowing hole is connected with the air blowing device, and the first air blowing hole and the second air blowing hole are oppositely arranged.

Through the technical scheme, the air blowing device blows air towards the first air blowing hole, air in the molding material channel flows out from the second air blowing, and flowing air flow is formed in the molding material channel, so that the molding is sucked to the material pressing hole; realize the automatic conveying of the embedded strips in the embedded strip material channel.

In one embodiment of the utility model, the conveying mechanism comprises a molding roller, a pressing assembly for driving the molding roller into the pressing hole and a conveying assembly for driving the molding roller to rotate;

the pressing assembly comprises a fillet roller swing rod and a swing rod cylinder; the molding roller swing rod is hinged with the main body mounting plate, the molding roller is connected to one end of the molding roller swing rod, which is close to the material pressing hole, and the output end of the swing rod cylinder is connected with the molding roller swing rod and used for controlling the swing of the molding roller swing rod to enable the molding roller to enter the material pressing hole.

According to the technical scheme, the pressing assembly is used for driving the molding roller to enter the pressing hole, pressing the molding into the pressing hole and limiting the molding to be discharged from the lower port of the molding channel; the conveying component is used for driving the molding roller to roll, and the molding roller can drive the molding to move due to friction, so that automatic conveying of the molding is realized.

In one embodiment of the present utility model, the conveying assembly includes a molding conveying belt, a molding conveying motor, a first molding conveying wheel and a second molding conveying wheel, wherein the first molding conveying wheel and the second molding conveying wheel are respectively connected to two ends of a molding roller swing rod in a rotating way; the molding conveying belt is sleeved on the first molding conveying wheel and the second molding conveying wheel, the output end of the molding conveying motor is connected with the first molding conveying wheel, and the molding roller is connected with the second molding conveying wheel.

Through the technical scheme, the molding conveying motor drives the conveying belt to drive, the conveying belt drives the molding roller to roll, and the molding roller can drive the molding to move due to friction, so that automatic conveying of the molding is realized.

In one embodiment of the utility model, the filler rod material channel is vertically arranged on the main body mounting plate, and the guide chute is connected with the lower port of the vertical material channel;

the cross section of baffle box is the arc, the baffle box extends to main part mounting panel bottom.

According to the technical scheme, the arc-shaped guide groove can change the conveying direction of conveying the embedded strips in the embedded strip material channel, so that the embedded strips are guided to the ironing module through the guide groove; and the arc-shaped guide groove can enable the replacement conveying direction of the insertion strip to be more stable.

In an embodiment of the utility model, a limiting rod is arranged at the joint of the guide chute and the filler rod material channel.

Through the technical scheme, the limiting rod is used for limiting the insertion strip in the guide chute for conveying, so that accurate conveying is realized.

In an embodiment of the utility model, the blowing component comprises a gas pipe fixed on the main body mounting plate and a nozzle connected with the gas pipe; the air pipe is connected with an external blowing device, and the nozzle is positioned below the limiting rod and is arranged opposite to the guide chute.

Through the technical scheme, the gas pipe is used for guiding gas to the nozzle, and the nozzle is used for jetting gas towards the embedded strip positioned on the guide chute, so that the embedded strip is limited to be conveyed to the ironing module along the groove wall of the guide chute.

As described above, the feeding device provided by the utility model has the following beneficial effects:

1. the filler rod material channel is used for conveying filler rods, so that the filler rods are prevented from being wound and knotted in the conveying process; the guide chute is used for guiding the insertion strip in the insertion strip material channel to the ironing module and combining the insertion strip guide ironing module with the cloth to be spliced for ironing; the conveying mechanism is used for pressing the embedded strip positioned in the material pressing hole, limiting the embedded strip to be discharged from the lower port of the embedded strip material channel and enter the guide chute; the blowing component is used for limiting the insertion strips to be conveyed to the ironing module along the guide chute; therefore, the device can stably and accurately convey the embedded strips to the stamping module, realize automatic feeding and improve the production efficiency;

2. the air blowing hole group connected with the air blowing device is used for blowing out air in the molding material channel, so that flowing air flow is formed in the molding material channel, the molding in the molding material channel is sucked into the pressing hole, and further automatic conveying of the molding in the molding material channel is realized.

Drawings

FIG. 1 is a schematic overall construction of an embodiment of the present utility model;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is a schematic view of a conveying mechanism according to an embodiment of the present utility model;

fig. 4 is a structural cross-sectional view of a flitch in accordance with an embodiment of the present utility model.

Reference numerals: 1. a main body mounting plate; 2. a material plate; 3. a filler rod material channel; 4. a guide groove; 5. a blow hole group; 6. a pressing hole; 8. a blowing component; 51. a first air blowing hole; 52. a second air blowing hole; 11. a filler rod roller; 12. a pressing assembly; 121. a fillet roller swing rod; 122. a swing rod cylinder; 15. a transport assembly; 151. a filler rod conveyor belt; 152. a filler rod feeding motor; 153. a first slug transfer wheel; 154. a second slug transfer wheel; 20. a limit rod; 81. a gas pipe; 82. a nozzle; 23. a hot pressing module; 24. a blowing fast socket; 25. a connecting plate; 811. a standpipe; 812. and a transverse tube.

Detailed Description

Further advantages and effects of the present utility model will become apparent to those skilled in the art from the disclosure of the present utility model, which is described by the following specific examples.

Please refer to fig. 1 to 4. It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the utility model to the extent that it can be practiced, since modifications, changes in the proportions, or otherwise, used in the practice of the utility model, are not intended to be critical to the essential characteristics of the utility model, but are intended to fall within the spirit and scope of the utility model. Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the utility model, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the utility model may be practiced.

Referring to fig. 1 and 2, the present utility model provides a feeding device, which includes a main body mounting plate 1 and a ironing module 23 disposed at the bottom of the main body mounting plate 1;

the main body mounting plate 1 is clamped with a vertically arranged material plate 2, and the middle part of the material plate 2 is vertically provided with a filler rod material channel 3; a guide chute 4 for guiding the insertion strip conveyed along the insertion strip material channel 3 to the ironing module 23 is arranged on the side wall of the main body mounting plate 1 positioned below the material plate 2; the upper part of the guide chute 4 is connected with the lower port of the vertical material channel, the lower part of the guide chute 4 extends to the bottom of the main body mounting plate 1, the section of the guide chute 4 is arc-shaped, the arc-shaped guide chute 4 can change the conveying direction of conveying the embedded bars in the embedded bar material channel 3, and the arc-shaped guide chute 4 can enable the replacing and conveying direction of the embedded bars to be more stable;

a limiting rod 20 is arranged at the joint of the guide chute 4 and the panel strip material channel 3, and the limiting rod 20 is perpendicular to the conveying direction of the panel strip and is intercepted on the guide chute 4; the limiting rod 20 is used for limiting the insertion strip to be conveyed in the guide chute 4, so that accurate conveying is realized.

Referring to fig. 1 and 4, a main body mounting plate 1 is provided with a blowing hole set 5 and a pressing hole 6, wherein the blowing hole set 5 is positioned above the pressing hole 6;

the air blowing hole group 5 is connected with an air blowing device which blows air in the molding material channel 3 and forms flowing air flow in the molding material channel 3 to suck the molding into the material pressing hole 6; the air blowing device in the embodiment is an air storage tank;

the air hole group 5 comprises a first air hole 51 and a second air hole 52 which are respectively arranged on the opposite side walls of the material plate 2, and the first air hole 51 and the second air hole 52 are oppositely arranged; the main body mounting plate 1 is provided with an air blowing quick socket 24, one end of which is connected with an air blowing device, and the air blowing quick socket 24 is communicated with a first air blowing hole 51;

the air blowing fast insertion opening 24 blows air towards the first air blowing hole 51, air in the molding material channel 3 flows out from the second air blowing, and flowing air flow is formed in the molding material channel 3, so that the molding is sucked to the material pressing hole 6; realizing the automatic conveying of the filler rods in the filler rod material channel 3.

Referring to fig. 1 and 3, a mounting plate is provided with a conveying mechanism for pressing a molding located in a molding hole 6, and limiting the molding to be discharged from a lower port of a molding material channel 3 and enter a guide chute 4;

the conveying mechanism comprises a filler rod roller 11, a material pressing assembly 12 for driving the filler rod roller 11 into the material pressing hole 6 and a conveying assembly 15 for driving the filler rod roller 11 to rotate;

the pressing assembly 12 comprises a fillet roller swing rod 121 and a swing rod cylinder 122; the molding roller swing rod 121 is obliquely hinged to the side wall of the main body mounting plate 1, one end of the molding roller swing rod 121 is close to the material pressing hole 6, the molding roller 11 is rotatably connected to one end of the molding roller swing rod 121 close to the material pressing hole 6, and a cylinder body of the swing rod cylinder 122 is fixed on the main body mounting plate 1 through bolts; the output end of the swing rod cylinder 122 is connected with a molding roller swing rod 121 at one side far away from the molding roller 11, and is used for controlling the swing of the molding roller swing rod 121 to enable the molding roller 11 to enter the material pressing hole 6;

the conveying assembly 15 comprises a molding conveying belt 151, a molding conveying motor 152, a first molding conveying wheel 153 and a second molding conveying wheel 154, wherein the first molding conveying wheel 153 and the second molding conveying wheel 154 are respectively connected to two ends of a molding roller swing rod 121 in a rotating way; the molding conveying belt 151 is sleeved on the first molding conveying wheel 153 and the second molding conveying wheel 154, the molding conveying motor 152 is fixed on the molding roller swing rod 121 through bolts, the output end of the molding conveying motor 152 is connected with the first molding conveying wheel 153, and the molding roller 11 is connected with the second molding conveying wheel 154 through a connecting shaft; the molding feeding motor 152 drives the conveyor belt to drive, so that the second molding conveying wheel 154 drives the molding roller 11 to roll, and the molding roller 11 can roll to drive the molding to move due to friction, thereby realizing automatic molding conveying.

The mounting plate is provided with a blowing component 8 for limiting the conveying of the filler rod to the ironing module 23 along the guide chute 4.

Referring to fig. 1, the blowing assembly 8 includes a gas pipe 81 and a nozzle 82 connected to the gas pipe 81; a connecting plate 25 is fixed on the main body mounting plate 1 through bolts;

the gas pipe 81 comprises a vertical pipe 811 and a horizontal pipe 812, and the vertical pipe 811 is clamped and fixed on the connecting plate 25; a transverse pipe 812 is fixedly connected to the bottom of the vertical pipe 811 and extends to the guide chute 4, and the nozzle 82 is connected with the end part of the transverse pipe 812; the nozzle 82 is positioned below the limiting rod 20 and is arranged opposite to the guide chute 4; in this embodiment, an adjusting tube may be added between the nozzle 82 and the transverse tube 812 to adjust the mounting position and the mounting angle of the nozzle 82, so that the nozzle 82 is fixed at a position below the guide chute, and the nozzle 82 can blow the molding to move along the chute wall of the guide chute.

The vertical pipe 811 is connected with a connecting pipe, the other end of the connecting pipe is sequentially connected with a solenoid valve island, a stainless steel air storage tank and a pneumatic two-way piece, the pneumatic two-way piece is externally connected with the air compressor air of a factory, impurities in the air compressor air are filtered, the pressure is regulated, and the air compressor air is connected to a stainless steel air blowing device, so that the air pressure is stable and stabilized;

in this embodiment, the nozzle 82 may also spray hot air, so as to melt colloidal particles on the molding, and thus, the molding is better hot-pressed with the fabric to be spliced.

The use process is briefly described: one end of the molding enters from the upper port of the molding material channel 3, and blows air towards the second air blowing hole 52 through the first air blowing hole 51, and the molding is sucked to the pressing position by the flowing air flow formed in the molding material channel 3; the molding press cylinder is used for driving the molding roller 11 to enter the press hole and pressing the molding into the press hole 6; the conveying component 15 is used for driving the panel strip roller 11 to roll; the molding roller 11 rolls to drive the molding to move due to friction, so that the molding is discharged from the lower port of the molding material channel 3 to the guide chute 4; the nozzle 82 sprays air toward the slugs located on the chute 4, restricting the slug from being transported along the chute walls of the chute 4 to the stamping module 23.

In summary, the molding material channel 3 is used for conveying the molding, so that the molding is prevented from winding and knotting in the conveying process; the guide chute 4 is used for guiding the insertion strip positioned in the insertion strip material channel 3 to the ironing module 23 for ironing by combining with the cloth to be spliced; the conveying mechanism is used for pressing the embedded strips in the material pressing holes 6, limiting the embedded strips to be discharged from the lower ports of the embedded strip material channels 3 and enter the guide chute 4; the blowing component 8 is used for limiting the conveying of the filler rods to the stamping module 23 along the guide chute 4; therefore, the device can stably and accurately convey the embedded strips to the stamping module 23, realize automatic feeding and improve production efficiency. Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (7)

1. A feeding device, characterized in that: comprises a main body mounting plate (1), a filler rod material channel (3) arranged in the main body mounting plate (1) and a guide chute (4) for guiding filler rods conveyed along the filler rod material channel (3) to a stamping module (23);

the main body mounting plate (1) is provided with a blowing hole group (5) and a material pressing hole (6), and the blowing hole group (5) is positioned above the material pressing hole (6);

the air blowing hole group (5) is connected with an air blowing device which blows air in the molding material channel (3) and forms flowing air flow in the molding material channel (3) to suck the molding into the pressing hole (6);

the mounting plate is provided with a conveying mechanism for pressing the embedded bars in the pressing holes (6) and limiting the embedded bars to be discharged from the lower ports of the embedded bar material channels (3) and enter the guide chute (4);

the mounting plate is provided with a blowing component (8) for limiting the conveying of the filler rod to the stamping module (23) along the guide chute (4).

2. A feeding device according to claim 1, wherein: the air blowing hole group (5) comprises a first air blowing hole (51) and a second air blowing hole (52) which are formed in the side wall of the main body mounting plate (1);

the first air blowing hole (51) is connected with the air blowing device, and the first air blowing hole (51) and the second air blowing hole (52) are arranged oppositely.

3. A feeding device according to claim 1, wherein: the conveying mechanism comprises a filler rod roller (11), a material pressing assembly (12) for driving the filler rod roller (11) into the material pressing hole (6) and a conveying assembly (15) for driving the filler rod roller (11) to rotate;

the pressing assembly (12) comprises a fillet roller swing rod (121) and a swing rod cylinder (122); the molding roller swing rod (121) is hinged with the main body mounting plate (1), and the molding roller (11) is connected to one end, close to the material pressing hole (6), of the molding roller swing rod (121); the output end of the swing rod cylinder (122) is connected with the swing rod (121) of the molding roller, and the swing rod is used for controlling the swing rod (121) of the molding roller to swing so that the molding roller (11) can enter the pressing hole (6).

4. A feeding device according to claim 3, wherein: the conveying assembly (15) comprises a filler rod conveying belt (151), a filler rod conveying motor (152), a first filler rod conveying wheel (153) and a second filler rod conveying wheel (154), wherein the first filler rod conveying wheel (153) and the second filler rod conveying wheel (154) are respectively and rotatably connected to two ends of a filler rod roller swing rod (121); the molding conveying belt (151) is sleeved on the first molding conveying wheel (153) and the second molding conveying wheel (154), the output end of the molding conveying motor (152) is connected with the first molding conveying wheel (153), and the molding roller (11) is connected with the second molding conveying wheel (154).

5. A feeding device according to claim 1, wherein: the filler rod material channel (3) is vertically arranged on the main body mounting plate (1), and the guide chute (4) is connected with the lower port of the vertical material channel;

the cross section of baffle box (4) is the arc, baffle box (4) extend to main part mounting panel (1) bottom.

6. A feeding device according to claim 5, wherein: a limiting rod (20) is arranged at the joint of the guide chute (4) and the filler rod material channel (3).

7. A feeding device according to claim 6, wherein: the blowing component (8) comprises a gas pipe (81) fixed on the main body mounting plate (1) and a nozzle (82) connected with the gas pipe (81); the air pipe (81) is connected with an external blowing device, and the nozzle (82) is positioned below the limiting rod (20) and is arranged opposite to the guide chute (4).