阅读说明：本技术 一种用于面兜的生产装置及其生产方法 (Production device and production method for flour pocket ) 是由 熊长伦 余治 于 2021-07-20 设计创作，主要内容包括：本发明公开了一种用于面兜的生产装置,包括有台面的工作台、电控箱,台面平整光滑,工作台设置有用于形成布筒的第一折边机构、用于连接成布筒的第一连接机构、用于把布筒翻过来放置布匹上的第二折边机构、用于把布筒固定在布匹上的第二连接机构、用于驱动布匹滑动的动力辊,第一折边机构、第一连接机构、第二折边机构、第二连接机构、动力辊依次排列,第一连接机构的第一工作线、第二连接机构的第二工作线均与布匹滑动的方向平行。本发明还公开了一种用于面兜的生产方法。通过设置第一折边机构、第二折边机构把边折起来并连接固定,避免单个布筒的缝纫以及再把布筒缝纫到面兜本体上,省去布筒与面兜本体定位的繁琐,大大提高生产效率和产品品质。(The invention discloses a production device for a bread bag, which comprises a workbench with a table board and an electric cabinet, wherein the table board is flat and smooth, the workbench is provided with a first flanging mechanism for forming a cloth tube, a first connecting mechanism for connecting the flanging mechanism into the cloth tube, a second flanging mechanism for turning over the cloth tube and placing the cloth, a second connecting mechanism for fixing the cloth tube on the cloth, and a power roller for driving the cloth to slide, the first flanging mechanism, the first connecting mechanism, the second flanging mechanism, the second connecting mechanism and the power roller are sequentially arranged, and a first working line of the first connecting mechanism and a second working line of the second connecting mechanism are parallel to the sliding direction of the cloth. The invention also discloses a production method for the flour pocket. Through setting up first hem mechanism, the second hem mechanism of rolling over the limit and connect fixedly, avoid the sewing of single cloth section of thick bamboo and sew the cloth section of thick bamboo to the face pocket body again, save the loaded down with trivial details of cloth section of thick bamboo and face pocket body location, improve production efficiency and product quality greatly.)

1. The utility model provides a apparatus for producing for pocket, its characterized in that, workstation, electric cabinet including the mesa, the mesa levels smoothly smooth so that do benefit to cloth and slide, the workstation is provided with the first hem mechanism that is used for forming a cloth section of thick bamboo, is used for connecting into the first coupling mechanism of a cloth section of thick bamboo, is used for turning over the cloth section of thick bamboo and places the second hem mechanism on the cloth, is used for fixing the second coupling mechanism on cloth, is used for driving the gliding power roller of cloth, wherein first hem mechanism, first coupling mechanism, second hem mechanism, second coupling mechanism, power roller arrange in proper order, electric cabinet and first coupling mechanism, second coupling mechanism, power roller electric connection, the first working line of first coupling mechanism, the second working line of second coupling mechanism all are parallel with the gliding direction of cloth.

2. The production device of claim 1, further comprising a third connecting mechanism, wherein the third connecting mechanism is arranged behind the second connecting mechanism, the third connecting mechanism can fixedly connect the nose bridge plate and/or the ear plate with the cloth, a cloth ditch is arranged below the third connecting mechanism, the cloth ditch can accommodate the cloth cylinder so as to prevent the third connecting mechanism from pressing the cloth cylinder, and the third connecting mechanism is electrically connected with the electric cabinet; the cloth storage device is characterized by further comprising a third connecting mechanism, the third connecting mechanism is arranged behind the second connecting mechanism, the third connecting mechanism can fixedly connect the nose bridge plate and/or the ear plate with cloth, a cloth ditch is arranged below the third connecting mechanism, the cloth ditch can contain a cloth cylinder so as to prevent the cloth cylinder from being pressed by the third connecting mechanism, the power roller is arranged to be a distance for stopping rotating when the third connecting mechanism works and rotating by the cloth length of one face pocket body when the third connecting mechanism is idle, and the third connecting mechanism is electrically connected with the electric cabinet; the cloth cylinder guiding device is characterized by further comprising a guide groove, the guide groove is arranged behind the second connecting mechanism and in front of the third connecting mechanism, and the cloth cylinder can be guided into the cloth ditch by the guide groove so that the third connecting mechanism can not press the cloth cylinder.

3. The production device according to claim 1, further comprising a cutting mechanism for cutting off excess cloth of the piece of cloth as a pocket, the cutting mechanism being disposed behind the second connecting mechanism; the cutting mechanism can cut off the redundant cloth of the flour pocket made of the cloth, and is arranged behind the third connecting mechanism; the cloth cutting machine further comprises a cutting mechanism, wherein the cutting mechanism can cut cloth into single pocket body cloth; the cutting mechanism is arranged on the cutting mechanism; the mask comprises a fabric or a mask body, and is characterized by also comprising a hole cutting mechanism, wherein the hole cutting mechanism can cut a plurality of through holes on the fabric or the fabric of the mask body so as to distinguish the mask from the mask; the hole cutting mechanism is arranged on the cutting mechanism.

4. The production device of claim 1, further comprising a fourth connecting mechanism, wherein the fourth connecting mechanism can connect the hanging rope to the fabric of the bread body, and the fourth connecting mechanism is electrically connected with the electric cabinet; the electric control box is electrically connected with the electric control box, and a fourth working line of the fifth connecting mechanism is arranged on the cut edges of the dough bag body cloth; the cloth grooves are further formed in the two sides, sliding on the cloth, of the table top so as to prevent the cloth from deviating, each cloth groove comprises two groove plates perpendicular to the table top, the groove plates are placed along the sliding direction of the cloth, and the width between the two groove plates is larger than or equal to the width of the cloth; the fabric sleeve cutting mechanism can cut off a section of the fabric sleeve so as to prevent the two ends of the fabric sleeve from being sealed when the cutting edges of the fabric of the mask body are connected together.

5. The production device of claim 1, wherein the first and second hemming mechanisms are static hemming mechanisms comprising a curled hemming plate mounted on a table; first coupling mechanism, second coupling mechanism are rolling butt fusion mechanism, rolling butt fusion mechanism is a pair of hot melt wheel, the hot melt wheel is installed on the mesa and with the rigidity of mesa, the hot melt wheel can rotate for the mesa, the hot melt wheel sets up on the hot melt line of cloth, a pair of hot melt wheel sets up respectively on the mesa with below.

6. The production device according to claim 5, wherein the cutting mechanism is a hob mechanism; the cutting mechanism is a hob cutter mechanism; the splitting mechanism is a hob mechanism; the hole cutting mechanism is a hob cutter mechanism; the cloth cylinder cutting mechanism is a hob cutter mechanism; the hobbing cutter mechanism comprises a hobbing cutter wheel, the hobbing cutter wheel is installed on the table top and fixed with the table top, the hobbing cutter wheel can rotate relative to the table top, the hobbing cutter wheel is provided with a cutting edge manufactured according to a cutting task, and the hobbing cutter wheel synchronously rotates along with the movement of the cloth to realize circular cutting; the guide groove is arranged below the table board, and the length direction of the guide groove is the same as the moving direction of the cloth.

7. The manufacturing device of claim 3, wherein the third connection mechanism is an elevation fusion mechanism; the third connecting mechanism is a lifting welding mechanism; the fourth connecting mechanism is a lifting welding mechanism; the fifth connecting mechanism is a lifting welding mechanism; the lifting welding mechanism comprises a welding base and a lifting welding head, the welding base and the welding head are arranged on the table board, the welding base is placed under the welding head, the welding head can move up and down relative to the table board and the welding base, and welding jigs manufactured according to the welding surface are arranged on the welding head and the welding base; the first connecting mechanism and the second connecting mechanism are static sewing mechanisms, each static sewing mechanism comprises a sewing needle and a guide plate, the guide plates can pour cloth below the sewing needle, and the guide plates are directly or indirectly arranged on the table top and are static relative to the table top; the third connecting mechanism is a dynamic sewing mechanism; the third connecting mechanism is a dynamic sewing mechanism; the fourth connecting mechanism is a dynamic sewing mechanism; the fifth connecting mechanism is a dynamic sewing mechanism; the dynamic sewing mechanism comprises a sewing needle and a movable guide plate, the guide plate can pour cloth under the sewing needle, the guide plate is directly or indirectly arranged on the table top, and the guide plate can move in the direction of lifting the cloth and then descend to press the cloth to push the cloth towards the direction of the sewing needle; the cloth sliding device is characterized by further comprising a sixth connecting mechanism, the sixth connecting mechanism is arranged in front of the second connecting mechanism, the sixth connecting mechanism and the first connecting mechanism can be used for manufacturing two cloth cylinders, the sixth connecting mechanism is electrically connected with the electric cabinet, and a third working line of the sixth connecting mechanism is parallel to the cloth sliding direction; the sixth connecting mechanism is a rolling welding mechanism which is a pair of hot melting wheels, the hot melting wheels are mounted on the table top and fixed with the table top, the hot melting wheels can rotate relative to the table top, the hot melting wheels are arranged on hot melting lines of the cloth, and the pair of hot melting wheels are respectively arranged above and below the table top; the sixth connecting mechanism is a static sewing mechanism which comprises a sewing needle and a guide plate, the guide plate can pour cloth under the sewing needle, and the guide plate is directly or indirectly arranged on the table top and is static relative to the table top.

8. The production device according to claim 5, wherein the cutting mechanism is an elevating cutting mechanism; the cutting mechanism is a lifting cutting mechanism; the splitting mechanism is a lifting cutting mechanism; the hole cutting mechanism is a lifting cutting mechanism; the lifting cutting mechanism comprises a cutting base and a lifting cutting punch, the cutting base and the cutting punch are arranged on the table board, the cutting base is placed under the cutting punch, the cutting punch can do lifting motion relative to the table board and the cutting base, and the cutting punch and the cutting base are both provided with cutting jigs manufactured according to a cutting task; the hemming plate comprises a hemming plate for hemming the cloth, two ends of the hemming plate are parallel to the table top, and one end of the hemming plate is connected with the other end of the hemming plate through a twisted curved surface; the hemming plate further comprises a cloth pressing plate used for pressing the cloth so as to enable the cloth to be arched, the cloth pressing plate is arranged to be parallel to the table top, and the cloth pressing plate is connected with the hemming plate; the second flanging mechanism also comprises a cloth receiving plate which is used for turning the cloth drum from one side of the table top to the other side, the cloth receiving plate is connected with the flanging plate, cloth slides into the other side below the table top from the inlet, passes through the flanging of the second flanging mechanism and then slides out of the table top from the outlet, and a cloth ditch is arranged between the inlet and the outlet for communicating the cloth drum to slide; the tail end of the cloth ditch is provided with a slope for transferring the cloth cylinder from one side of the table top to the other side, the top end of the slope is flush with the table top, and the tail end of the cloth ditch is provided with an outlet; the cloth tensioning device further comprises a tension roller, and the tension roller can enable the cloth to be kept in a tensioned state from the tension roller to the power roller.

9. The production method for a neckset according to claim 1, comprising the steps of:

adjusting the position of the first edge folding mechanism on the table board, wherein the distance L1 between the folded edge and the unfolded edge of the first edge folding mechanism is more than or equal to half of the outer perimeter of the cross section of the air bag, so that the cloth folded by the first edge folding mechanism is more than or equal to half of the outer perimeter of the cross section of the air bag mounted on the cloth tube;

(II) adjusting the position of the first connecting mechanism on the table board, wherein the distance L2 between the first working line of the first connecting mechanism and the folded edge of the first edge folding mechanism is greater than or equal to half of the outer circumference of the cross section of the installed airbag, so that the inner circumference of the cross section of the cloth tube made by the first working line is greater than or equal to the outer circumference of the cross section of the installed airbag;

(III) adjusting the position of the second flanging mechanism on the table board, wherein the distance L3 between the folded edge of the second flanging mechanism and the folded edge of the first flanging mechanism is more than or equal to three-fourths of the outer circumference of the cross section of the airbag, so that the cloth folded by the second flanging mechanism is more than or equal to three-fourths of the outer circumference of the cross section of the airbag installed on the cloth tube;

fourthly, the position of the second connecting mechanism on the table top is adjusted, the distance L4 between the second working line of the second connecting mechanism and the folded edge of the second edge folding mechanism is greater than or equal to one fourth of the outer perimeter of the cross section of the installed airbag, so that the edge of the flattened cloth tube is not outside the edge of the pocket body;

(V) starting the power roller and adjusting the rotating speed of the power roller;

and (VI) placing the cloth on the table-board, aligning the edge of the cloth with the unfolded edge of the first edge folding mechanism, and pulling the cloth to the power roller.

10. The production method according to claim 9, further comprising the step (seventh) of fitting the cloth tube into the cloth ditch and then attaching the nose bridge plate and/or the ear plate to the cloth by a third attaching mechanism; the step (eight) of connecting the hanging rope to the cloth through a fourth connecting mechanism; the method also comprises the step (nine) of cutting the redundant cloth of the flour pocket made of the cloth by the cutting mechanism; the cloth is cut into single pocket body cloth through a cutting mechanism; the mask is characterized by also comprising the eleventh step of cutting a plurality of through holes on the cloth or the fabric of the mask body through a hole cutting mechanism so as to distinguish the mask from the mask; the method also comprises a twelfth step of connecting the cut edges of the fabric of the dough pocket body together through a fifth connecting mechanism to form the dough pocket body; and step thirteen, the cloth tube is made into the cloth tube which can be provided with two air bags and double holes through a sixth connecting mechanism.

Technical Field

The invention relates to the technical field of medical instruments and labor protection products, in particular to a production device for a flour pocket and a production method thereof.

Background

The existing mask has a large gap with the face, and in order to solve the gap, a plurality of methods are provided, and each method has advantages and disadvantages. The mask has a good effect by arranging an annular air bag at the peripheral edge of the mask for sealing. The mask is characterized in that the mask is pressed on the face, the mask is provided with an air bag, the periphery of the mask is provided with an annular air bag, the air bag is not filled with air, and when a gap exists between the mask or the mask and the face, the air in the air bag can run away until the gap is filled.

The edge of the face pocket or the mask is provided with an air bag, and the air bag is troublesome to be fixed with the mask or the face pocket in the actual production. One of the mounting methods is to provide a cloth tube for placing the airbag, and then sew the cloth tube on the mask or the face pocket, so that the airbag can be mounted, but each mask or face pocket is sewn manually, the production efficiency is low, and the product cost is high. The invention can also be used for producing masks with air bags.

Disclosure of Invention

The invention provides a production device and a production method for a flour pocket, and solves the problems of low production efficiency and high product cost of the flour pocket.

In order to solve the technical problems, the invention provides a production device for a bread bag, which comprises a workbench and an electric cabinet, wherein the workbench is provided with a table board, the table board is smooth and convenient for cloth sliding, the workbench is provided with a first flanging mechanism for forming a cloth tube, a first connecting mechanism for connecting the cloth tube, a second flanging mechanism for turning over the cloth tube and placing the cloth, a second connecting mechanism for fixing the cloth tube on the cloth and a power roller for driving the cloth to slide, the first flanging mechanism, the first connecting mechanism, the second flanging mechanism, the second connecting mechanism and the power roller are sequentially arranged, the electric cabinet is electrically connected with the first connecting mechanism, the second connecting mechanism and the power roller, and a first working line of the first connecting mechanism and a second working line of the second connecting mechanism are parallel to the cloth sliding direction.

In the structure, the cloth pressing device further comprises a third connecting mechanism, the third connecting mechanism is arranged behind the second connecting mechanism, the third connecting mechanism can fixedly connect the nose bridge plate and/or the ear plate with cloth, a cloth ditch is arranged below the third connecting mechanism, the cloth ditch can contain the cloth cylinder so as to prevent the third connecting mechanism from pressing the cloth cylinder, and the third connecting mechanism is electrically connected with the electric cabinet.

In the structure, the cloth bag comprises a nose beam plate and/or an ear plate and cloth, and is characterized by further comprising a third connecting mechanism, the third connecting mechanism is arranged behind the second connecting mechanism, the third connecting mechanism can fixedly connect the nose beam plate and/or the ear plate with the cloth, a cloth ditch is arranged below the third connecting mechanism, the cloth ditch can accommodate the cloth barrel so as to prevent the third connecting mechanism from pressing the cloth barrel, the power roller is arranged to stop rotating when the third connecting mechanism works and rotate the distance of the cloth length of the first surface bag body when the third connecting mechanism is idle, and the third connecting mechanism is electrically connected with the electric cabinet.

In the structure, the cloth cylinder guiding device further comprises a guide groove, the guide groove is arranged behind the second connecting mechanism and in front of the third connecting mechanism, and the cloth cylinder can be guided into the cloth ditch by the guide groove so as not to be pressed by the third connecting mechanism.

In the structure, the cutting mechanism is further included, the cutting mechanism can cut off the redundant cloth of the flour pocket made of the cloth, and the cutting mechanism is arranged behind the second connecting mechanism.

In the structure, the cutting mechanism is further included, the cutting mechanism can cut off the redundant cloth of the flour pocket made of the cloth, and the cutting mechanism is arranged behind the third connecting mechanism.

In the structure, the cloth cutting machine further comprises a cutting mechanism, and the cutting mechanism can cut cloth into single-face pocket body cloth.

In the structure, the cutting mechanism is arranged on the cutting mechanism.

In the structure, the mask comprises a fabric or a mask body, and the mask body is provided with a plurality of through holes.

In the structure, the hole cutting mechanism is arranged on the cutting mechanism.

In the structure, the fabric bag further comprises a fourth connecting mechanism, the fourth connecting mechanism can connect the hanging rope to the fabric of the fabric bag body, and the fourth connecting mechanism is electrically connected with the electric cabinet.

In the structure, the fabric pocket further comprises a fifth connecting mechanism, the fifth connecting mechanism can connect the cutting edges of the fabric pocket body cloth together to form the fabric pocket body, the fifth connecting mechanism is electrically connected with the electric cabinet, and the fourth working line of the fifth connecting mechanism is arranged on the cutting edges of the fabric pocket body cloth.

In the structure, the table board is also provided with cloth grooves on two sides of the sliding cloth so as to prevent the cloth from deviating, the cloth grooves comprise two groove plates vertical to the table board, the groove plates are placed along the sliding direction of the cloth, and the width between the two groove plates is larger than or equal to the width of the cloth.

In the structure, the fabric pocket further comprises a fabric tube cutting mechanism, and the fabric tube cutting mechanism can cut off one section of the fabric tube so as to prevent two ends of the fabric tube from being sealed when the cut edges of the fabric pocket body are connected together.

In the structure, the first flanging mechanism and the second flanging mechanism are static flanging mechanisms, each static flanging mechanism comprises a curled flanging plate, and the flanging plates are arranged on the table board.

In the structure, the first connecting mechanism and the second connecting mechanism are rolling welding mechanisms, each rolling welding mechanism is a pair of hot melting wheels, the hot melting wheels are mounted on the table board and fixed to the table board, the hot melting wheels can rotate relative to the table board, the hot melting wheels are arranged on hot melting lines of the cloth, and the pair of hot melting wheels are arranged on the upper surface and the lower surface of the table board respectively.

In the above structure, the cutting mechanism is a hob cutter mechanism.

In the above structure, the slitting mechanism is a hob mechanism.

In the structure, the hole cutting mechanism is a hob cutter mechanism.

In the structure, the cloth tube cutting mechanism is a hob cutter mechanism.

In the structure, the hobbing cutter mechanism comprises a hobbing cutter wheel, the hobbing cutter wheel is installed on the table board and fixed with the table board, the hobbing cutter wheel can rotate relative to the table board, the hobbing cutter wheel is provided with a cutting edge manufactured according to a cutting task, and the hobbing cutter wheel synchronously rotates along with the movement of the cloth to realize circular cutting.

In the structure, the guide groove is arranged below the table board, and the length direction of the guide groove is the same as the moving direction of the cloth.

In the above structure, the third connecting mechanism is a lifting fusion mechanism.

In the above structure, the fourth connecting mechanism is a lifting fusion mechanism.

In the above structure, the fifth connecting mechanism is a lifting fusion mechanism.

In the structure, the lifting welding mechanism comprises a welding head of a welding base and a lifting device, the welding base and the welding head are arranged on the table board, the welding base is placed under the welding head, the welding head can move up and down relative to the table board and the welding base, and the welding jig manufactured according to the welding surface is installed on the welding head and the welding base.

In the structure, the first connecting mechanism and the second connecting mechanism are static sewing mechanisms, each static sewing mechanism comprises a sewing needle and a guide plate, the guide plates can pour cloth under the sewing needles, and the guide plates are directly or indirectly arranged on the table top and are static relative to the table top.

In the above structure, the third connecting mechanism is a dynamic sewing mechanism.

In the above structure, the fourth connecting mechanism is a dynamic sewing mechanism.

In the above structure, the fifth connecting mechanism is a dynamic sewing mechanism.

In the structure, the dynamic sewing mechanism comprises a sewing needle and a movable guide plate, the guide plate can pour cloth under the sewing needle, the guide plate is directly or indirectly arranged on the table top, and the guide plate can move in the direction of lifting the cloth and then descends to press the cloth to push the cloth in the direction of the sewing needle.

In the structure, the cloth feeding device further comprises a sixth connecting mechanism, the sixth connecting mechanism is arranged in front of the second connecting mechanism, the sixth connecting mechanism and the first connecting mechanism can be used for manufacturing two cloth cylinders, the sixth connecting mechanism is electrically connected with the electric cabinet, and a third working line of the sixth connecting mechanism is parallel to the sliding direction of the cloth.

In the structure, the sixth connecting mechanism is a rolling welding mechanism, the rolling welding mechanism is a pair of hot melting wheels, the hot melting wheels are mounted on the table board and fixed with the table board, the hot melting wheels can rotate relative to the table board, the hot melting wheels are arranged on hot melting lines of the cloth, and the pair of hot melting wheels are respectively arranged on and under the table board.

In the above structure, the sixth connecting mechanism is a static sewing mechanism, the static sewing mechanism includes a sewing needle and a guide plate, the guide plate can pour the cloth under the sewing needle, and the guide plate is directly or indirectly mounted on the table top and is static relative to the table top.

In the structure, the cutting mechanism is a lifting cutting mechanism.

In the structure, the slitting mechanism is a lifting and cutting mechanism.

In the structure, the hole cutting mechanism is a lifting cutting mechanism.

In the structure, the lifting cutting mechanism comprises a cutting punch capable of being lifted and lowered, the cutting base and the cutting punch are arranged on the table board, the cutting base is placed under the cutting punch, the cutting punch can move up and down relative to the table board and the cutting base, and the cutting punch and the cutting base are provided with cutting jigs manufactured according to cutting tasks.

In the structure, the hemming plate comprises a hemming plate for curling the cloth, the two ends of the hemming plate are parallel to the table top, and one end of the hemming plate is connected with the other end of the hemming plate through a twisted curved surface.

In the structure, the hemming plate further comprises a cloth pressing plate used for pressing the cloth so as to enable the cloth to be arched, the cloth pressing plate is arranged to be parallel to the table top, and the cloth pressing plate is connected with the hemming plate.

In the structure, the second flanging mechanism further comprises a cloth receiving plate for enabling the cloth drum to rotate from one side of the table board to the other side, the cloth receiving plate is connected with the flanging plate, cloth slides into the other side below the table board from the inlet, slides out of the table board from the outlet after passing through the flanging of the second flanging mechanism, and a cloth ditch is communicated between the inlet and the outlet so that the cloth drum can slide.

In the structure, the tail end of the cloth ditch is provided with a slope for transferring the cloth cylinder from one side of the table board to the other side, the top end of the slope is flush with the table board, and the tail end of the cloth ditch is an outlet.

The structure also comprises a tension roller which can keep the cloth in a tensioned state from the tension roller to the power roller.

A production method for a flour pocket comprises the following steps:

adjusting the position of the first edge folding mechanism on the table board, wherein the distance L1 between the folded edge and the unfolded edge of the first edge folding mechanism is more than or equal to half of the outer perimeter of the cross section of the air bag, so that the cloth folded by the first edge folding mechanism is more than or equal to half of the outer perimeter of the cross section of the air bag mounted by the cloth tube;

(II) adjusting the position of the first connecting mechanism on the table board, wherein the distance L2 between the first working line of the first connecting mechanism and the folded edge of the first edge folding mechanism is greater than or equal to half of the outer circumference of the cross section of the installed airbag, so that the inner circumference of the cross section of the cloth tube made by the first working line is greater than or equal to the outer circumference of the cross section of the installed airbag;

(III) adjusting the position of the second flanging mechanism on the table board, wherein the distance L3 between the folded edge of the second flanging mechanism and the folded edge of the first flanging mechanism is more than or equal to three-fourths of the outer circumference of the cross section of the airbag, so that the cloth folded by the second flanging mechanism is more than or equal to three-fourths of the outer circumference of the cross section of the airbag installed on the cloth tube;

fourthly, the position of the second connecting mechanism on the table top is adjusted, the distance L4 between the second working line of the second connecting mechanism and the folded edge of the second edge folding mechanism is greater than or equal to one fourth of the outer perimeter of the cross section of the installed airbag, so that the edge of the flattened cloth tube is not outside the edge of the pocket body;

(V) starting the power roller and adjusting the rotating speed of the power roller;

and (VI) placing the cloth on the table-board, aligning the edge of the cloth with the unfolded edge of the first edge folding mechanism, and pulling the cloth to the power roller.

And (VII) placing the cloth tube into the cloth ditch, and connecting the nose bridge plate and/or the ear plate to the cloth through a third connecting mechanism.

In the above step, the method further comprises the step (eight), the hanging rope is connected to the cloth through the fourth connecting mechanism.

In the step (nine), the redundant cloth of the flour pocket made of the cloth is cut off through the cutting mechanism.

In the step (v), the cloth is cut into cloth with single pocket body by a cutting mechanism.

In the step, the method further comprises the step (eleven), a plurality of through holes are cut in the cloth or the cloth of the mask body through the hole cutting mechanism, so that the mask can be distinguished from the mask.

And in the step (twelfth), the cut edges of the fabric of the dough pocket body are connected together through a fifth connecting mechanism to form the dough pocket body.

In the step (thirteen), the cloth tube is made into the cloth tube which can be provided with two air bags and double holes through a sixth connecting mechanism.

The invention has the beneficial effects that: through setting up first hem mechanism, the second hem mechanism of rolling over and the limit is rolled over and is connected fixedly, avoid the sewing of single cloth section of thick bamboo and sew the cloth section of thick bamboo to the face pocket body again, save the loaded down with trivial details of cloth section of thick bamboo and face pocket body location, improve production efficiency and product quality greatly.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of another aspect of the present invention;

FIG. 3 is a perspective view of the table top;

FIG. 4 is a perspective view of the pannier;

FIG. 5 is an exploded view of the bread;

FIG. 6 is a perspective view of a hem plate;

FIG. 7 is a perspective view of the hob mechanism;

FIG. 8 is a perspective view of the sewing mechanism;

FIG. 9 is a schematic diagram of the operation of the present invention;

FIG. 10 is an operational view of the first hemming mechanism;

FIG. 11 is an operational view of the second crimping mechanism;

FIG. 12 is a schematic view of the cloth tube cutting mechanism;

FIG. 13 is an operational view of the second crimping mechanism from another perspective;

fig. 14 is an operation schematic diagram of the cutting mechanism;

FIG. 15 is an operational schematic of the slitting mechanism;

FIG. 16 is an operational view of the hole cutting mechanism;

FIG. 17 is an operational schematic of the fifth attachment mechanism;

FIG. 18 is an operational schematic of the third coupling mechanism;

fig. 19 is an operation diagram of the fourth connecting mechanism.

In the figure, 1-workbench, 2-table top, 3-electric cabinet, 4-first folding mechanism, 5-first connecting mechanism, 6-second folding mechanism, 7-second connecting mechanism, 8-third connecting mechanism, 9-fourth connecting mechanism, 10-fifth connecting mechanism, 11-sixth connecting mechanism, 12-cutting mechanism, 13-cutting mechanism, 14-hole cutting mechanism, 15-cloth barrel cutting mechanism, 16-groove plate, 17-hob wheel, 18-guide groove, 19-welding base, 20-welding head, 21-cloth barrel, 22-pocket body, 23-power roller, 24-nose beam plate, 25-ear plate, 26-cloth groove, 27-through hole, 28-hanging rope, 29-folding plate, 30-hot melting wheel, 31-sewing needle, 32-guide plate, 33-cutting punch, 34-hemming plate, 35-cloth pressing plate, 36-cloth receiving plate, 37-slope, 38-strip-shaped hole, 39-air bag, 40-tension roller, 41-inlet, 42-outlet, 43-cutting base, 44-first working line, 45-second working line, 46-third working line, 47-cloth, 48-fourth working line.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to enable others of ordinary skill in the art to understand the various embodiments and advantages of the invention, and, by reference to these figures, reference is made to the accompanying drawings, which are not to scale and wherein like reference numerals generally refer to like elements.

Referring to the attached drawings, the production device for the bread comprises a workbench 1 with a table board 2 and an electric cabinet 3, wherein the table board 2 is flat and smooth so as to facilitate the sliding of cloth 47, the workbench 1 is provided with a first flanging mechanism 4 for forming a cloth tube 21, a first connecting mechanism 5 for connecting the cloth tube 21, a second flanging mechanism 6 for turning over the cloth tube 21 and placing the cloth 47, a second connecting mechanism 7 for fixing the cloth tube 21 on the cloth 47, and a power roller 23 for driving the cloth 47 to slide, the first flanging mechanism 4, the first connecting mechanism 5, the second flanging mechanism 6, the second connecting mechanism 7 and the power roller 23 are sequentially arranged, the electric cabinet 3 is electrically connected with the first connecting mechanism 5, the second connecting mechanism 7 and the power roller 23, and a first working line 44 of the first connecting mechanism 5 and a second working line 45 of the second connecting mechanism 7 are parallel to the sliding direction of the cloth 47.

Preferably, the cloth storage box further comprises a third connecting mechanism 8, the third connecting mechanism 8 is arranged behind the second connecting mechanism 5, the third connecting mechanism 8 can fixedly connect the nose bridge plate 24 and/or the ear plate 25 with the cloth 47, a cloth ditch 26 is arranged below the third connecting mechanism 8, the cloth ditch 26 can accommodate the cloth tube 21 so as to prevent the third connecting mechanism 8 from pressing the cloth tube 21, and the third connecting mechanism 8 is electrically connected with the electric cabinet 3.

Preferably, the cloth bag further comprises a third connecting mechanism 8, the third connecting mechanism 8 is arranged behind the second connecting mechanism 5, the third connecting mechanism 8 can fixedly connect the nose bridge plate 24 and/or the ear plate 25 with cloth 47, a cloth ditch 26 is arranged below the third connecting mechanism 8, the cloth ditch 26 can accommodate the cloth barrel 21 so as to prevent the third connecting mechanism 8 from pressing the cloth barrel 21, the power roller 23 is arranged to stop rotating when the third connecting mechanism 8 works and rotate a distance of the cloth length of the face pocket body when the third connecting mechanism 8 is in leisure, and the third connecting mechanism 8 is electrically connected with the electric cabinet 3.

Preferably, a guide groove 18 is further included, the guide groove 18 is arranged after the second connecting mechanism 5 and before the third connecting mechanism 8, and the guide groove 18 can guide the cloth tube 21 into the cloth ditch 26 to prevent the third connecting mechanism 8 from pressing the cloth tube 21.

Preferably, the cutting mechanism 12 is further included, the cutting mechanism 12 can cut off the excessive cloth of the piece of cloth 47 which is made into the dough bag, and the cutting mechanism 12 is arranged behind the second connecting mechanism 7.

Preferably, the cutting mechanism 12 is further included, the cutting mechanism 12 can cut off the excessive cloth of the piece of cloth 47 which is made into the dough bag, and the cutting mechanism 12 is arranged behind the third connecting mechanism 8.

Preferably, a splitting mechanism 13 is further included, and the splitting mechanism 13 can split the cloth 47 into single pocket body cloth.

Preferably, the slitting mechanism 13 is provided on the cutting mechanism 12.

Preferably, the mask further comprises a hole cutting mechanism 14, and the hole cutting mechanism 14 can cut a plurality of through holes 27 in the cloth 47 or the fabric of the mask body so as to distinguish the mask from the mask.

Preferably, the hole cutting mechanism 14 is provided on the cutting mechanism 12.

Preferably, still include fourth coupling mechanism 9, fourth coupling mechanism 9 can be with hanging rope 28 connection on the face pocket body cloth, fourth coupling mechanism 9 and electric cabinet 3 electric connection.

Preferably, the bread maker further comprises a fifth connecting mechanism 10, the fifth connecting mechanism 10 can connect the cut edges of the bread body cloth together to form the bread body 22, the fifth connecting mechanism 10 is electrically connected with the electric cabinet 3, and the fourth working line 48 of the fifth connecting mechanism 10 is located on the cut edges of the bread body cloth.

Preferably, the table top 2 is further provided with cloth grooves at two sides of the sliding direction of the cloth 47 so as to prevent the cloth 47 from shifting, the cloth grooves comprise two groove plates 16 perpendicular to the table top, the groove plates 16 are placed along the sliding direction of the cloth 47, and the width between the two groove plates 16 is larger than or equal to the width of the cloth 47.

Preferably, the mask further comprises a cloth tube cutting mechanism 15, and the cloth tube cutting mechanism 15 can cut off a section of the cloth tube 21 so as to prevent two ends of the cloth tube 21 from being sealed when the cut edges of the cloth of the mask body are connected together.

Preferably, the first folding mechanism 4 and the second folding mechanism 6 are static folding mechanisms, each static folding mechanism comprises a curled folding plate 29, and the folding plates 29 are mounted on the table top.

Preferably, the first connecting mechanism 5 and the second connecting mechanism 7 are rolling welding mechanisms, each rolling welding mechanism is a pair of hot melting wheels 30, each hot melting wheel 30 is mounted on the table top 2 and fixed with the table top 2, each hot melting wheel 30 can rotate relative to the table top 2, each hot melting wheel 30 is arranged on a hot melting line of the cloth, and the pair of hot melting wheels 30 are respectively arranged on the upper surface and the lower surface of the table top 2.

Preferably, the cutting mechanism 12 is a hob mechanism.

Preferably, the slitting mechanism 13 is a hob mechanism.

Preferably, the hole cutting mechanism 14 is a hob mechanism.

Preferably, the cloth tube cutting mechanism 15 is a hob cutter mechanism.

Preferably, the hobbing mechanism comprises a hobbing cutter wheel 17, the hobbing cutter wheel 17 is installed on the table top 2 and fixed with the position of the table top 2, the hobbing cutter wheel 17 can rotate relative to the table top 2, the hobbing cutter wheel 17 is provided with a cutting edge manufactured according to a cutting task, and the hobbing cutter wheel 17 synchronously rotates along with the movement of the cloth 47 to realize circular cutting.

Preferably, the guide slot 18 is arranged below the table top 2, the length direction of the guide slot 18 being the same as the direction of movement of the cloth 47.

Preferably, the third connecting mechanism 8 is an elevation welding mechanism.

Preferably, the fourth connecting mechanism 9 is an elevation welding mechanism.

Preferably, the fifth connecting mechanism 10 is an elevation fusion mechanism.

Preferably, lift butt fusion mechanism includes butt fusion base 19, the butt fusion 20 of liftable, and butt fusion base 19, butt fusion 20 set up on mesa 2, and butt fusion base 19 is placed under butt fusion 20, and butt fusion 20 can be for mesa 2, butt fusion base 19 to be the elevating movement, and butt fusion jig according to the butt fusion face and preparation is all installed to butt fusion 20, butt fusion base 19.

Preferably, the first connecting mechanism 5 and the second connecting mechanism 7 are static sewing mechanisms, the static sewing mechanisms comprise sewing needles 31 and guide plates 32, the guide plates 32 can pour the cloth 47 under the sewing needles 31, and the guide plates 32 are directly or indirectly arranged on the table top 2 and are static relative to the table top 2.

Preferably, the third connecting means 8 is a dynamic sewing mechanism.

Preferably, the fourth connecting means 9 is a dynamic sewing mechanism.

Preferably, the fifth attachment mechanism 10 is a dynamic sewing mechanism.

Preferably, the dynamic sewing mechanism comprises a sewing needle 31 and a movable guide plate 32, the guide plate 32 can pour the cloth 47 under the sewing needle 31, the guide plate 32 is directly or indirectly arranged on the table top 2, and the guide plate 32 can be lifted to move towards the cloth 47 and then push the cloth 47 towards the sewing needle 31 by descending and pressing the cloth 47.

Preferably, the cloth drying machine further comprises a sixth connecting mechanism 11, the sixth connecting mechanism 11 is arranged in front of the second connecting mechanism 6, the sixth connecting mechanism 11 and the first connecting mechanism 5 can be used for manufacturing two cloth cylinders 21, the sixth connecting mechanism 11 is electrically connected with the electric cabinet 3, and a third working line 46 of the sixth connecting mechanism 11 is parallel to the sliding direction of the cloth 47.

Preferably, the sixth connecting mechanism 11 is a rolling welding mechanism, the rolling welding mechanism is a pair of hot-melting wheels 30, the hot-melting wheels 30 are mounted on the table top 2 and fixed with the table top 2, the hot-melting wheels 30 can rotate relative to the table top 2, the hot-melting wheels 30 are arranged on the hot-melting lines of the cloth 47, and the pair of hot-melting wheels 30 are respectively arranged on the upper surface and the lower surface of the table top 2.

Preferably, the sixth connecting mechanism 11 is a static sewing mechanism, which comprises a sewing needle 31, a guide plate 32, the guide plate 32 being capable of pouring the cloth 47 under the sewing needle 31, the guide plate 32 being mounted directly or indirectly on the table top 2 and being stationary with respect to the table top 2.

Preferably, the cutting mechanism 12 is an elevating cutting mechanism.

Preferably, the slitting mechanism 13 is a lifting and lowering cutting mechanism.

Preferably, the hole cutting mechanism 14 is an elevating cutting mechanism.

Preferably, the lifting cutting mechanism comprises a cutting base 43 and a lifting cutting punch 33, the cutting base 43 and the cutting punch 33 are arranged on the table top 2, the cutting base 43 is placed under the cutting punch 33, the cutting punch 33 can move up and down relative to the table top 2 and the cutting base 43, and cutting jigs manufactured according to cutting tasks are mounted on both the cutting punch 33 and the cutting base 43.

Preferably, the hemming plate 29 includes a hemming plate 34 for hemming the cloth 47, both ends of the hemming plate 34 are parallel to the table top 2, and one end and the other end of the hemming plate 34 are connected by a twisted curved surface.

Preferably, the hemming plate 29 further includes a cloth pressing plate 35 for pressing the cloth so that the cloth 47 is arched, the cloth pressing plate 35 being disposed parallel to the table top 2, the cloth pressing plate 35 being connected to the hemming plate 34.

Preferably, the second folding mechanism 6 further comprises a cloth receiving plate 36 for rotating the cloth drum 21 from one side to the other side of the table top 2, the cloth receiving plate 36 is connected with the edge rolling plate 34, the cloth slides into the other side below the table top 2 from the inlet 41, is folded by the second folding mechanism 6 and then slides out of the table top 2 from the outlet 42, and the cloth chute 26 is communicated between the inlet 41 and the outlet 42 so that the cloth drum 21 can slide.

Preferably, the end of the cloth ditch 26 is provided with a slope 37 for turning the cloth drum 21 from one side of the table top 2 to the other side, the top end of the slope 37 is flush with the table top 2, and the end of the cloth ditch 26 is provided with an outlet 42.

Preferably, a tension roller 40 is further included, and the tension roller 40 can keep the cloth 47 in a tensioned state from the tension roller 40 to the power roller 23.

A production method for a flour pocket comprises the following steps:

adjusting the position of the first edge folding mechanism 4 on the table board 2, wherein the distance L1 between the folded edge and the unfolded edge of the first edge folding mechanism 4 is more than or equal to half of the outer perimeter of the cross section of the air bag 39, so that the cloth 47 folded by the first edge folding mechanism 4 is more than or equal to half of the outer perimeter of the cross section of the air bag 39 installed on the cloth tube 21;

secondly, adjusting the position of the first connecting mechanism 5 on the table board 2, wherein the distance L2 between the first working line 44 of the first connecting mechanism 5 and the folded edge of the first folding mechanism 4 is more than or equal to half of the outer perimeter of the cross section of the installed air bag 39, so that the inner perimeter of the cross section of the cloth tube 21 made of the first working line 44 is more than or equal to the outer perimeter of the cross section of the installed air bag 39;

(III) adjusting the position of the second flanging mechanism 6 on the table board 2, wherein the distance L3 between the folded edge of the second flanging mechanism 6 and the folded edge of the first flanging mechanism 4 is more than or equal to three-quarters of the outer perimeter of the cross section of the air bag 39, so that the cloth 47 folded by the second flanging mechanism 6 is more than or equal to three-quarters of the outer perimeter of the cross section of the air bag 39 arranged on the cloth tube 21;

(IV) adjusting the position of the second connecting mechanism 7 on the table board 2, wherein the distance L4 between the second working line 45 of the second connecting mechanism 7 and the folded edge of the second folding mechanism 6 is more than or equal to one fourth of the outer perimeter of the cross section of the mounted air bag 39, so that the edge of the squashed cloth tube 21 is not outside the edge of the panel body 22;

(V) starting the power roller 23 and adjusting the rotating speed of the power roller 23;

(VI) the cloth 47 is placed on the table top 2 with the edge of the cloth 47 aligned with the unfolded edge of the first folding mechanism 4 and the cloth 47 is pulled to the power roller 23.

The balloon 39 is in a filled state when it is pressed by force, and the cloth tube 21 is on both sides of the first working line 44, and in a collapsed state, one side has a dimension of one quarter of the outer circumference of the cross section of the balloon 39. The second flanging mechanism 6 is locked in a folded-back dimension of one quarter of this plus the dimension of the outer circumference of the cross section of the balloon 39 in the collapsed condition, i.e. three quarters of the outer circumference of the cross section of the balloon 39.

Preferably, the method further comprises the step (seventh) of putting the cloth tube 21 into the cloth ditch 26 and connecting the nose bridge plate 24 and/or the ear plate 25 to the cloth 47 through the third connecting mechanism 8.

Preferably, the method further comprises the step (eight) of connecting the hanging rope 28 to the cloth 47 through the fourth connecting mechanism 9.

Preferably, the method further comprises the step (nine) of cutting off the excessive cloth of the cloth 47 which is made into the dough bag by the cutting mechanism 12.

Preferably, the method further comprises the step (ten) of cutting the cloth 47 into cloth of the single pocket body 22 by the slitting mechanism 13.

Preferably, the method further comprises the step (eleven) of cutting a plurality of through holes 27 on the cloth 47 or the cloth of the mask body 22 through the hole cutting mechanism 14 so as to distinguish the mask from the mask.

Preferably, the method further comprises the step (twelfth) of connecting the cut edges of the fabric of the bread body 22 together by the fifth connecting mechanism 10 to form the bread body 22.

Preferably, the method further comprises a step (thirteen) of forming the cloth tube 21 into the cloth tube 21 with double holes for installing the two air bags 39 through the sixth connecting mechanism 11.

According to the invention, the first folding mechanism 4 and the second folding mechanism 6 are arranged, and the edges are folded, connected and fixed, so that the sewing of a single cloth tube 21 and the sewing of the cloth tube 21 on the dough pocket body 22 are avoided, the trouble of positioning the cloth tube 21 and the dough pocket body 22 is eliminated, and the production efficiency and the product quality are greatly improved. According to the production method, the cloth tube can be automatically produced, and then the fifth connecting mechanism 10 and/or the sixth connecting mechanism 11 and/or the fourth connecting mechanism 9 and/or the third connecting mechanism 8 can be manually operated to complete other procedures such as cutting, welding and the like. The strip-shaped air bag 39 can be arranged in the cloth tube 21 on the face bag body 22, so that the cloth tube 21 is completely covered by the face bag body 22.

The air bag 39 is used after being filled with gas and/or liquid having a volume at normal temperature and normal pressure smaller than the maximum volume of the cavity at normal temperature and normal pressure or without being filled with gas and/or liquid but indicating that the volume at normal temperature and normal pressure is smaller than the maximum volume of the cavity at normal temperature and normal pressure. Normal temperature and pressure mean a standard atmospheric pressure and a temperature of 20 ℃.

The volume of the gas and/or liquid filled in the cavity of the air bag 39 at normal temperature and normal pressure is one sixth to five sixths of the maximum volume of the cavity filled at normal temperature and normal pressure or the air and/or liquid is not filled but the volume of the gas and/or liquid filled in the cavity at normal temperature and normal pressure is one sixth to five sixths of the maximum volume of the cavity filled at normal temperature and normal pressure. Further, the air bag 39 is used after being filled with gas and/or liquid in the cavity thereof at normal temperature and normal pressure in a volume of one third to two thirds of the maximum volume of the cavity thereof at normal temperature and normal pressure or without being filled with gas and/or liquid but indicating that the gas and/or liquid in the cavity thereof at normal temperature and normal pressure in a volume of one third to two thirds of the maximum volume of the cavity thereof at normal temperature and normal pressure is filled. Further, the volume of the gas and/or liquid filled in the cavity of the airbag 39 at normal temperature and pressure is one half to two thirds of the maximum volume of the cavity filled at normal temperature and pressure or the airbag is used after being filled with the gas and/or liquid at normal temperature and pressure in a volume of one half to two thirds of the maximum volume of the cavity filled at normal temperature and pressure. Further, the air bag 39 is used after being filled with gas and/or liquid having a volume at normal temperature and normal pressure which is one third to one half of the maximum volume of the air bag at normal temperature and normal pressure or without being filled with gas and/or liquid but indicating that the air bag is filled with gas and/or liquid having a volume at normal temperature and normal pressure which is one third to one half of the maximum volume of the air bag at normal temperature and normal pressure.

Because the air bag 39 is not full, under the pulling force of the hanging rope, the face pocket can compress the air bag 39, and the gas or liquid in the air bag 39 can run to the place where the face pocket has a gap, so that the gap is filled. The maximum radius of the balloon 39 is R after filling with liquid or gas, so that the balloon 39 can be filled in gaps between 0 and 2R. If the bladder is a multilayer bladder 39, with N layers of bladders 39, the bladder can be filled in the gaps between 0-2 NR. The pressure on each part of the face pocket sealed by the air bag 39 is the same, and the face can not be marked. Because the air in the air bag 39 is not full, the air bag 39 can be swelled at the concave part of the human body under the action of small external force and can be shrunken at the convex part of the human body, so that the mask can be fully attached to the human body, thereby being completely sealed. The air-bag 39 and its manner of attachment are important.

In one embodiment, since the top cloth is a flat cloth, the top may be formed as a stereo top, and thus may be raised in some places, and then holes may be formed in the raised places to reduce the height of the raised place.

In a specific embodiment, the table top 2 is provided with elongated holes 38 for mounting, and a lifting cutting mechanism or a rolling welding mechanism or a static sewing mechanism or the like is fixed on the table top 2 by screws through the elongated holes 38 so that the position on the table top 2 along the direction perpendicular to the moving direction of the cloth can be adjusted.

In one embodiment, the present invention can also be used to produce masks sealed with air bag 39, the masks having similar structures, except that the masks have a filter layer and a sterilization layer, the mask has only a single layer of cloth, and the cloth tube 21 has the same structure as the mask.

In a particular embodiment, the electric cabinet 3 is mounted on the table 1.

In one embodiment, the heat staking mechanism may be replaced with a sewing mechanism.

In one embodiment, the diameter of the hob wheel of the cutting mechanism 12, the diameter of the hob wheel of the cutting mechanism 13, the diameter of the hob wheel of the hole cutting mechanism 14 and the diameter of the hob wheel of the cloth bobbin cutting mechanism 15 are equal.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, and the scope of protection is still within the scope of the invention.