CN116570088A - Clothing production system - Google Patents

Abstract

The invention discloses a clothing production system, and relates to the technical field of clothing processing. The clothing production system comprises a frame, a gluing mechanism and a pressing mechanism, wherein a movable bearing plate is arranged on the frame and used for placing first cloth; the gluing mechanism is arranged on the frame, and the bearing plate can move to the gluing mechanism, so that the gluing mechanism is used for gluing the upper surface of the first cloth; the pressing mechanism is arranged on the frame, the bearing plate passing through the gluing mechanism can move to the pressing mechanism, the pressing mechanism comprises a vacuum grabbing part, the vacuum grabbing part is used for adsorbing the second cloth, and the vacuum grabbing part is used for driving the second cloth to the upper side of the bearing plate so that the second cloth is pressed with the upper surface of the first cloth. The technical scheme of the invention can solve the problem of unnecessary waste of resources caused by more manpower resources and material resources in the existing clothing production process.

Description

Clothing production system

Technical Field

The invention relates to the technical field of clothing processing, in particular to a clothing production system.

Background

In the process of producing garments, two cloths are processed. The specific processing method comprises the following steps: manually placing the first cloth on a glue brushing machine to perform a glue brushing action; and manually placing the first cloth after the glue brushing on a pressing machine to press the first cloth after the glue brushing and the second cloth placed on the pressing machine to form a semi-finished product of the garment.

In the prior art, a plurality of machines are needed to execute the processing of the first cloth and the second cloth, and the first cloth or the second cloth is needed to be transferred between the plurality of machines by relying on manpower, so that more manpower resources and material resources are needed in the process of producing clothing, and unnecessary waste of resources is caused.

Disclosure of Invention

The invention mainly aims to provide a clothing production system, which aims to solve the problem of unnecessary waste of resources caused by more manpower resources and material resources in the existing clothing production process.

To achieve the above object, the present invention provides a garment production system, comprising:

the machine frame is provided with a movable bearing plate, and the bearing plate is used for placing a first cloth;

the gluing mechanism is arranged on the frame, and the bearing plate can move to the gluing mechanism, so that the gluing mechanism is used for gluing the upper surface of the first cloth;

the pressing mechanism is arranged on the frame, the bearing plate passing through the gluing mechanism can move to the pressing mechanism, the pressing mechanism comprises a vacuum grabbing part, the vacuum grabbing part is used for adsorbing second cloth, and the vacuum grabbing part is used for driving the second cloth to the upper part of the bearing plate so that the second cloth is pressed with the upper surface of the first cloth.

In an embodiment, the frame includes the rubberizing frame, the rubberizing mechanism includes the rubberizing mechanism, the rubberizing mechanism set up in the rubberizing frame, the rubberizing mechanism includes the rubberizing portion, the rubberizing portion set up in the upper end of rubberizing frame, be equipped with the brush in the rubberizing portion and glue the head, the brush is glued the head and is used for the upper surface brush of first cloth is glued.

In an embodiment, the rubberizing frame still includes the point frame, the rubberizing mechanism still includes the point mechanism of gluing, the point mechanism of gluing set up in the point frame of gluing, the point mechanism of gluing include the point glue the head with follow the Y axle direction of point glue the frame set up in the first slide rail at the frame both ends of gluing, the point glue the head with first slide rail connection makes the point glue the head can follow the Y axle direction of point glue the frame removes the point and glue.

In an embodiment, the dispensing mechanism further includes a dispensing moving portion, the dispensing head is disposed on the dispensing moving portion, and the dispensing moving portion is connected to the first sliding rails disposed at two ends of the dispensing frame, so that the dispensing head can move the dispensing along the X-axis direction of the dispensing frame through the dispensing moving portion.

In an embodiment, the frame further comprises a pressing frame, the pressing mechanism is arranged on the pressing frame, the pressing mechanism further comprises a second sliding rail, the second sliding rail is arranged at two ends of the pressing frame along the Y-axis direction of the pressing frame, the vacuum grabbing part is arranged on the second sliding rail, and the vacuum grabbing part is used for adsorbing the second cloth placed outside and pressing the second cloth with the first cloth on the bearing table.

In an embodiment, the vacuum grabbing portion includes a connecting portion and an adsorption portion connected to the connecting portion, the connecting portion is connected to the second sliding rail, and a path that the adsorption portion adsorbs the second cloth and then moves to the bearing table is a moving path.

In an embodiment, the pressing mechanism further includes a detecting portion, the detecting portion is disposed on the pressing frame and disposed on the moving path, the detecting portion can detect a position of the second cloth adsorbed by the adsorbing portion, the position is adsorbed on the adsorbing portion, detected position information is transferred to a controller connected to the detecting portion, and the controller receives the position information and then controls the adsorbing portion to rotate, so that the position of the second cloth corresponds to the position of the first cloth.

In an embodiment, the clothing production system further comprises a waiting mechanism, the waiting mechanism is arranged between the glue brushing mechanism and the glue dispensing mechanism, the rack further comprises a waiting rack, the waiting mechanism is arranged on the waiting rack, a storage table used for placing the bearing plates is arranged on the waiting mechanism, the number of the bearing plates is multiple, and when the glue dispensing mechanism is one of the first cloth glue dispensing mechanisms placed on the bearing plates, the rest bearing plates can stay on the storage table.

In an embodiment, the clothing production system further comprises a feeding and discharging mechanism, the feeding and discharging mechanism comprises a feeding mechanism and a discharging mechanism, the feeding mechanism comprises a plurality of sections of feeding conveyor belts, the discharging mechanism comprises a plurality of sections of discharging conveyor belts, the feeding conveyor belts and the discharging conveyor belts correspond to the gluing mechanisms and the pressing mechanisms in a one-to-one mode, the feeding conveyor belts can drive the bearing plates to sequentially pass through the gluing mechanisms and the pressing mechanisms, and the discharging conveyor belts can drive the bearing plates to sequentially pass through the gluing mechanisms and the pressing mechanisms and then move out of the clothing production system.

In an embodiment, the glue brushing frame, the waiting frame, the glue dispensing frame and the pressing frame are arranged side by side.

According to the technical scheme, a movable bearing plate is arranged on a rack of a clothing production system, and a first cloth is placed on the bearing plate; the gluing mechanism is arranged on the frame, and the bearing plate can move to the gluing mechanism, so that the gluing mechanism is used for brushing glue on the upper surface of the first cloth; the first cloth after rubberizing can be moved to pressing mechanism by the loading board, and pressing mechanism sets up in the frame, and the loading board through rubberizing mechanism removes to after the pressing mechanism, the vacuum grabbing part that sets up on pressing mechanism can adsorb the second cloth, and vacuum grabbing part can drive the second cloth to loading board top, makes the upper surface pressfitting of second cloth and first cloth, forms the semi-manufactured goods of clothing after first cloth and the second cloth pressfitting. The processing to first cloth and second cloth just can be realized to the complete clothing production system that only needs to use, need not the manual work to transport first cloth and second cloth between many machines, can not cause the waste of manpower resources and material resources, and the integration has set up clothing production system, make the in-process that first cloth and second cloth formed the semi-manufactured goods of clothing need not artifical the interference, realize full automated production, also improved production efficiency, use vacuum grabbing part to realize counterpoint between first cloth and the second cloth on pressing mechanism, can guarantee that the pressfitting position of first cloth and second cloth is accurate, the probability of producing the defective goods is lower.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a garment manufacturing system according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an embodiment of a glue brushing mechanism in a garment production system according to the present invention;

FIG. 3 is a schematic diagram of an embodiment of a dispensing mechanism in a garment manufacturing system according to the present invention;

FIG. 4 is a schematic view of an embodiment of a pressing mechanism in a garment manufacturing system according to the present invention;

FIG. 5 is a schematic structural view of another embodiment of the pressing mechanism in the garment production system according to the present invention, wherein the carrier is not moved to the pressing mechanism;

FIG. 6 is a schematic view of a vacuum gripper of a pressing mechanism in a garment production system according to an embodiment of the present invention;

FIG. 7 is a schematic view of an embodiment of a feeding mechanism in a garment production system according to the present invention;

FIG. 8 is a schematic view of an embodiment of a discharge mechanism in a garment production system according to the present invention.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				1	Clothing production system	302	First slide rail
10	Rack	303	Dispensing moving part
				20	Glue brushing mechanism	2	Bearing plate
30	Dispensing mechanism	3	First cloth
				40	Pressing mechanism	401	Vacuum gripping part
50	Feeding mechanism	4010	Connecting part
				60	Waiting mechanism	4011	Adsorption part
101	Brush gum frame	402	Second slide rail
				102	Dispensing frame	403	Detection unit
103	Press-fit rack	404	Controller for controlling a power supply
				104	Waiting machine frame	501	Feeding conveyor belt
201	Glue brushing part	502	Discharging conveyor belt
				2010	Glue brushing head	601	Storage table
301	Dispensing head	70	Discharging mechanism
				100	Rubberizing frame	200	Rubberizing mechanism

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that all the directional indicators in the embodiments of the present invention are only used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture, and if the specific posture is changed, the directional indicators are correspondingly changed.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

In the prior art, a plurality of machines are needed to execute the processing of the first cloth and the second cloth, and the first cloth or the second cloth is needed to be transferred between the plurality of machines by relying on manpower, so that more manpower resources and material resources are needed in the process of producing clothing, and unnecessary waste of resources is caused.

In order to solve the above problems, the present invention provides a garment production system.

Referring to fig. 1, in the present embodiment, the garment production system 1 includes a frame 10, a movable carrying board 2 is disposed on the frame 10, and the carrying board 2 is used for placing a first fabric 3; the gluing mechanism 200 is arranged on the frame 10, and the bearing plate 2 can move to the gluing mechanism 200, so that the gluing mechanism 200 is used for gluing the upper surface of the first cloth 3; the pressing mechanism 40, the pressing mechanism 40 is disposed on the frame 10, and the carrier plate 2 passing through the rubberizing mechanism 200 can move to the pressing mechanism 40, the pressing mechanism 40 includes a vacuum grabbing portion 401, the vacuum grabbing portion 401 is used for adsorbing a second cloth, and the vacuum grabbing portion 401 is used for driving the second cloth to above the carrier plate 2, so that the second cloth is pressed with the upper surface of the first cloth 3.

In an embodiment, the frame 10 includes a glue applying frame 100, the glue applying frame 100 includes a glue brushing frame 101, the glue applying mechanism 200 includes a glue brushing mechanism 20, the glue brushing mechanism 20 is disposed on the glue brushing frame 101, the glue brushing mechanism 20 includes a glue brushing portion 201, the glue brushing portion 201 is disposed on an upper end of the glue brushing frame 101, a glue brushing head 2010 is disposed on the glue brushing portion 201, and the glue brushing head 2010 is used for brushing glue on the upper surface of the first cloth 3.

Referring to fig. 2, in the present embodiment, the brushing mechanism 20 includes a brushing frame 101, a brushing portion 201, a carrier plate 2, and an adsorption connector, the brushing portion 201 is disposed at an upper end of the brushing frame 101, a brushing head 2010 is disposed on the brushing portion 201, and the brushing head 2010 is used for brushing the first cloth 3; the bearing plate 2 is arranged on the glue brushing rack 101, and the first cloth 3 is placed on the bearing plate 2; the adsorption connecting piece is arranged on the glue brushing machine frame 101 and is used for adsorbing the first cloth 3, so that the first cloth 3 is flatly placed on the bearing plate 2.

Specifically, the brushing mechanism 20 includes a brushing frame 101, a brushing portion 201, a carrier plate 2, and an adsorption connection member, where the specific brushing portion 201 and the carrier plate 2 are disposed on the brushing frame 101, and the brushing portion 201 is disposed above the brushing frame 101 and is used for executing a brushing action for the first cloth 3 on the carrier plate 2. And be connected with the absorption connecting piece between loading board 2 and brush and glue frame 101, the absorption connecting piece can be through absorbing loading board 2 realization absorption deposit the first cloth 3 on loading board 2, reaches when the brush glues first 2010 contact first cloth 3, and first cloth 3 can not produce the fold phenomenon, makes brush gluey mechanism 20 when gluing first cloth 3, improves the efficiency of brushing gluey.

In an embodiment, the adsorption connecting piece comprises an adsorption head, one end of the adsorption head is used for being connected with a glue brushing vacuum pump, the other end of the adsorption head adsorbs the first cloth 3 through the bearing plate 2, and the adsorption head can adsorb the first cloth 3, so that the first cloth 3 is flatly placed on the bearing plate 2.

Specifically, the adsorption connecting piece specifically still includes the adsorption head, the adsorption head is used for adsorbing loading board 2, be connected at the one end of adsorption head and outside brush gum vacuum pump, the brush gum vacuum pump can extract the air around the adsorption head of being connected with the brush gum vacuum pump, make loading board 2 can be by firm absorption on the adsorption head, realize placing first cloth 3 on loading board 2 and can be adsorbed by the adsorption head, the flatly place on loading board 2, when brush gum head 2010 falls down and first cloth 3 contacts, first cloth 3 can not appear also by brush gum head 2010 drive the phenomenon of taking place the fold owing to being adsorbed in loading board 2.

In an embodiment, the adsorption connecting piece comprises a first mounting plate, the adsorption head is arranged on the first mounting plate in a penetrating manner, and one end of the adsorption head penetrates out of the first mounting plate and is used for adsorbing the first cloth 3.

Specifically, adsorb the connecting piece and still have first mounting panel and second mounting panel except adsorbing the head, wherein be provided with the adsorption head on the first mounting panel, adsorb the head and run through and set up on first mounting panel, and adsorb the quantity of head and be two in this embodiment, two adsorption heads all run through and set up on first mounting panel, set up two adsorption heads and can make the adsorption effect that adsorbs the connecting piece strengthen.

In an embodiment, the carrying plate 2 is provided with carrying plate 2 through holes corresponding to the number of the adsorption heads, and the adsorption heads can adsorb the first cloth 3 placed on the carrying plate 2 through holes.

Specifically, through holes of the bearing plate 2 are formed in the bearing plate 2, the number of through holes of the specific bearing plate 2 is the same as that of the adsorption heads, and in this embodiment, the number of adsorption heads is two, that is, the number of through holes of the bearing plate 2 on the bearing plate 2 is also two, and the positions of the through holes of the two bearing plates 2 are matched with the positions of the adsorption heads, so that the adsorption force of the adsorption heads can pass through the bearing plate 2 and then be adsorbed to the first cloth 3 placed on the bearing plate 2. In other embodiments, the number of the through holes of the adsorption head and the carrier plate 2 is not limited, and the effect that the adsorption connecting piece adsorbs the first cloth 3 placed on the carrier plate 2 through the through hole of the carrier plate 2 can be achieved.

In an embodiment, the adsorption connecting piece further comprises an air pipe and a second mounting plate, the first mounting plate is connected with the second mounting plate, the air pipe is arranged between the first mounting plate and the second mounting plate, one end of the air pipe is connected with the adsorption head, and the other end of the air pipe is connected with the glue brushing vacuum pump.

Specifically, the adsorption connecting piece still includes the trachea, first mounting panel and second mounting panel are connected, and leave the distance between first mounting panel and the second mounting panel, the trachea sets up between first mounting panel and second mounting panel, the brush is glued the vacuum pump and is connected with the adsorption head through the trachea, and in actual brush glues the in-process, loading board 2 can be adsorbed by the adsorption head, after brush glues the head 2010 and accomplish the brush of first cloth 3 glues, brush glues the head 2010 and keep away from loading board 2, the first mounting panel of the adsorption connecting piece after accomplishing the brush action can contract for the direction of second mounting panel, make the adsorption head no longer adsorb loading board 2, make loading board 2 can leave brush gluey frame 101, carry out the follow-up action to first cloth 3.

In an embodiment, the glue brushing portion 201 further includes a mesh plate, the glue brushing head 2010 is in contact with the mesh plate, the mesh plate can move towards the direction of the placement table and contact the first cloth 3, a plurality of through mesh plate through holes are formed in the mesh plate, and the glue brushing head 2010 can move on the mesh plate and apply the glue attached to the glue brushing head 2010 to the first cloth 3 through the mesh plate through holes.

Specifically, the glue brushing portion 201 includes a mesh plate, the mesh plate contacts with the glue brushing head 2010, and the mesh plate is disposed between the glue brushing head 2010 and the first cloth 3, when the glue brushing head 2010 descends to brush the glue on the first cloth 3, the mesh plate descends synchronously, so as to press the first cloth 3, a plurality of mesh plate through holes are formed in the mesh plate, and when the glue brushing head 2010 moves on the mesh plate, the glue on the glue brushing head 2010 is coated on the first cloth 3 through the mesh plate through holes.

In an embodiment, the brush head 2010 is capable of moving along the Y-axis direction of the brush frame 101, and the brush width of the brush head 2010 is greater than the width of the first cloth 3 and less than the width of the screen.

Specifically, the brush glue head 2010 can move along the vertical direction of the carrier plate 2 on the brush glue rack 101, so that large-area brush glue of the first cloth 3 is realized, and the brush glue width of the brush glue head 2010 is smaller than the width of the screen plate and larger than the width of the first cloth 3, so that high-efficiency brush glue of the brush glue head 2010 is realized.

In an embodiment, the glue brushing portion 201 further includes a glue supplying device, where the glue supplying device is disposed at two ends of the Y axis direction of the glue brushing frame 101, and the glue supplying device is connected to a glue supplying pump, so that the glue supplying device can supply glue to the glue brushing head 2010.

In an embodiment, the glue brushing portion 201 further includes a Y-axis driving motor, the Y-axis driving motor is connected with a connecting rod, the connecting rod is connected with the glue brushing head 2010, and the Y-axis driving motor can drive the glue brushing head 2010 to slide along the setting direction of the connecting rod, so that the glue brushing head 2010 brushes the glue for the first cloth 3.

In an embodiment, the brushing portion 201 is disposed on the brushing frame 101 of the brushing mechanism 20, so that the brushing portion 201 brushes the first cloth 3, and the brushing frame 101 is provided with the bearing plate 2, the first cloth 3 is disposed on the bearing plate 2, and an adsorption connecting member is disposed between the bearing plate 2 and the brushing frame 101, and the adsorption connecting member can adsorb the first cloth 3 through the adsorption bearing plate 2. Specifically, be provided with loading board 2 through-hole on loading board 2, adsorb the connecting piece and can realize the absorption to first cloth 3 through loading board 2 through-hole on loading board 2, make first cloth 3 can be leveled place on loading board 2, when the brush glues the first cloth 3 of brush on gluey portion 201 glues first cloth 2010, first cloth 3 is adsorbed on loading board 2, also can not take place the problem that first cloth 3 produced the fold, makes the brush glue reach best effect, satisfies modern production's demand.

Referring to fig. 3, in an embodiment, the glue applying rack 100 further includes a glue dispensing rack 102, the glue applying mechanism 200 further includes a glue dispensing mechanism 30, the glue dispensing mechanism 30 is disposed on the glue dispensing rack 102, the glue dispensing mechanism 30 includes a glue dispensing head 301 and first slide rails 302 disposed at two ends of the glue dispensing rack 102 along a Y-axis direction of the glue dispensing rack 102, and the glue dispensing head 301 is connected with the first slide rails 302, so that the glue dispensing head 301 can move the glue dispensing along the Y-axis direction of the glue dispensing rack 102.

Specifically, the dispensing mechanism 30 is used for dispensing the outer contour of the upper surface of the first cloth 3.

In an embodiment, the dispensing mechanism 30 further includes a dispensing moving portion 303, the dispensing head 301 is disposed on the dispensing moving portion 303, and the dispensing moving portion 303 is connected to the first sliding rails 302 disposed at two ends of the dispensing frame 102, so that the dispensing head 301 can move the dispensing along the X-axis direction of the dispensing frame 102 through the dispensing moving portion 303.

In an embodiment, the frame 10 further includes a pressing frame 103, the pressing mechanism 40 is disposed on the pressing frame 103, the pressing mechanism 40 further includes a second slide rail 402, the second slide rail 402 is disposed at two ends of the pressing frame 103 along a Y-axis direction of the pressing frame 103, the vacuum grabbing portion 401 is disposed on the second slide rail 402, and the vacuum grabbing portion 401 is configured to adsorb the second fabric placed on the outside and press the second fabric with the first fabric 3 on the carrying table.

In an embodiment, the vacuum gripping portion 401 includes a connection portion 4010 and an adsorption portion 4011 connected to the connection portion 4010, the connection portion 4010 is connected to the second slide rail 402, and a path of the adsorption portion 4011 that the second cloth is adsorbed to the outside and then moves to the bearing table is a moving path.

Referring to fig. 4 to 5, in the present embodiment, the pressing mechanism 40 includes a pressing frame 103, a carrying board 2, and a vacuum grabbing portion 401, the carrying board 2 is disposed on the pressing frame 103, and the carrying board 2 is used for adsorbing the glued first cloth 3; the vacuum grabbing portion 401 is movably arranged on the pressing frame 103, the vacuum grabbing portion 401 is used for adsorbing second cloth placed on the pressing frame 103 and transferring the second cloth to the upper portion of the first cloth 3, and the vacuum grabbing portion 401 is used for driving the second cloth to descend so that the second cloth is pressed with the first cloth 3.

Specifically, the pressing mechanism 40 includes a pressing frame 103, a carrying board 2 and a vacuum grabbing portion 401, the carrying board 2 and the vacuum grabbing portion 401 are disposed on the specific pressing frame 103, a first cloth 3 coated with glue is placed on the carrying board 2, the vacuum grabbing portion 401 can adsorb a second cloth placed on the outside and transfer the second cloth to the upper portion of the carrying board 2, positions of the second cloth and the first cloth 3 correspond, and the corresponding rear vacuum grabbing portion 401 descends to drive the second cloth to descend to achieve pressing with the first cloth 3. The vacuum grabbing part 401 can vacuum adsorb the second cloth placed outside, so that the second cloth can not be wrinkled in the transferring process, and the problem that the effect is poor when the first cloth 3 and the second cloth are pressed can not be generated when the second cloth is pressed with the first cloth 3 later, the quality of clothing can not be influenced, and the modern production requirement is met.

In an embodiment, the pressing mechanism 40 further includes a sliding rail, the sliding rail is connected to the vacuum grabbing portion 401, the sliding rail is disposed on two sides of the pressing frame 103 along the Y-axis direction of the pressing frame 103, and the vacuum grabbing portion 401 can move to a direction close to the carrier plate 2 through the sliding rail and stay above the carrier plate 2.

Specifically, the pressing mechanism 40 further includes a slide rail, the vacuum grabbing portion 401 can move on the slide rail, the slide rail is disposed on two sides of the pressing frame 103 along the Y-axis direction of the pressing frame 103, so the vacuum grabbing portion 401 can move back and forth along the Y-axis direction of the pressing frame 103, the vacuum grabbing portion 401 after the second cloth is adsorbed to the outside can move along the slide rail to the direction of the bearing plate 2 and transfer the second cloth to the upper side of the first cloth 3, and the subsequent vacuum grabbing portion 401 can drive the second cloth to move downwards, so that the second cloth and the first cloth 3 are pressed.

In an embodiment, the vacuum grabbing portion 401 includes an adsorption portion 4011 and a connection portion 4010, the adsorption portion 4011 is connected with the connection portion 4010, the connection portion 4010 is connected with the sliding rail, and the connection portion 4010 can drive the adsorption portion 4011 to move along the setting direction of the sliding rail.

Specifically, the vacuum grasping portion 401 includes an adsorbing portion 4011 and a connecting portion 4010, and the connecting portion 4010 is movable on slide rails provided on both sides of the press frame 103, so that the adsorbing portion 4011 connected to the connecting portion 4010 is moved through the connecting portion 4010, and is moved in the setting direction of the slide rails.

In an embodiment, the vacuum grabbing portion 401 further includes a lifting portion, where the lifting portion is connected to the adsorbing portion 4011, and when the adsorbing portion 4011 does not adsorb the second fabric, the lifting portion can drive the adsorbing portion 4011 to descend to adsorb the second fabric; when the adsorbing portion 4011 moves above the carrier plate 2, the lifting portion can drive the adsorbing portion 4011 to descend, so that the second cloth is pressed with the first cloth 3.

Specifically, the vacuum grabbing portion 401 further includes a lifting portion, the lifting portion is connected with the adsorbing portion 4011, when the adsorbing portion 4011 is above the external second cloth, the adsorbing portion 4011 does not adsorb the second cloth, and the lifting portion provided on the adsorbing portion 4011 can drive the adsorbing portion 4011 to descend, so that the adsorbing portion 4011 can adsorb the second cloth. And the preferential adsorption plate shape of the adsorption part 4011 can help the second cloth to be completely adsorbed on the adsorption part 4011, so that the complete stability of the second cloth is ensured. The adsorbing portion 4011 adsorbed to the second cloth moves to the upper portion of the bearing plate 2 along the direction of the sliding rail, and when the second cloth corresponds to the first cloth 3, the lifting portion drives the adsorbing portion 4011 to descend, so that the second cloth can be completely pressed with the first cloth 3.

In an embodiment, the vacuum gripping portion 401 further includes a plurality of pressing vacuum pumps, where the pressing vacuum pumps are disposed on the adsorbing portion 4011, and the plurality of pressing vacuum pumps can control the adsorbing portion 4011 to vacuum adsorb the second fabric.

Specifically, the vacuum grabbing portion 401 further includes a pressing vacuum pump, and the pressing vacuum pump can provide an adsorption force for the adsorption portion 4011, so that the adsorption portion 4011 can completely adsorb the second cloth.

In an embodiment, the number of the lifting parts is plural, and the top surfaces of the lifting parts are lower than the bottom surfaces of the connecting parts 4010.

Specifically, the number of lifting portions provided on the adsorbing portion 4011 is not limited, and in the present embodiment, the number of lifting portions provided on the adsorbing portion 4011 is four, and the four lifting portions are provided to ensure that the adsorbing portion 4011 can be lifted and lowered smoothly in the process of lifting and lowering.

In an embodiment, the bonding vacuum pump is provided with a connecting piece, the connecting portion 4010 is connected with the bonding vacuum pump through the connecting piece, and the connecting portion 4010 connected with the connecting piece can drive the adsorbing portion 4011 to move towards the setting direction of the carrier plate 2 through the bonding vacuum pump.

Specifically, the connection portion 4010 is connected with the pressing vacuum pump through a connection sheet, and the connection portion 4010 moves on the sliding rail, so that the adsorption portion 4011 connected with the pressing vacuum pump is driven to move, and the smooth movement of the second cloth is achieved.

In an embodiment, the pressing frame 103 is further provided with an adsorption connecting piece, the adsorption connecting piece is in adsorption connection with the carrier plate 2, a through hole is formed in the carrier plate 2, and the adsorption connecting piece enables the first cloth 3 to be fixedly placed on the carrier plate 2 through the through hole.

Specifically, the adsorption connecting piece can adsorb the loading board 2 on the lamination frame 103, and is provided with the through-hole on the loading board 2, and the adsorption connecting piece can adsorb the first cloth 3 of placing on the loading board 2 through the through-hole, makes the first cloth 3 also can be level and smooth place on the loading board 2.

In an embodiment, the pressing mechanism 40 further includes a placement table, the placement table is disposed on the pressing frame 103, and the vacuum grabbing portion 401 can grab the second fabric disposed on the placement table and drive the second fabric to be pressed against the first fabric 3 after approaching the first fabric 3.

The garment production system 1 according to the present invention comprises a press-fit mechanism 40 as described above.

The pressing mechanism 40 further includes a second conveying portion, where the second conveying portion includes a second conveying driving device and a second conveying body, the second conveying driving device is disposed at one end of the second conveying body, the second conveying body is connected with the pressing frame 103, the second conveying driving device is driven to connect with the placement table, and the second conveying driving device can enable the placement portion to move along the height direction of the pressing frame 103 and be located on the same plane with the carrier plate 2.

The second conveying part further comprises a conveying inductor, the conveying inductor is arranged on one side of the second conveying body, which is close to the second conveying driving device, the conveying inductor can sense the ascending or descending distance of the placement table, and when the conveying inductor senses that the placement table and the bearing plate 2 are located on the same plane, the second conveying driving device stops driving the placement table.

In an embodiment, by arranging the carrier plate 2 and the vacuum grabbing portion 401 on the pressing mechanism 40, the first cloth 3 coated with glue is arranged on the carrier plate 2, and through holes are arranged on the carrier plate 2 arranged on the pressing frame 103, and the adsorption connecting piece capable of absorbing vacuum can adsorb the first cloth 3 through the through holes on the carrier plate 2, so that the first cloth 3 cannot be wrinkled on the carrier plate 2; and the vacuum grabbing part 401 can adsorb and grab the second cloth placed on the pressing frame 103, because the second cloth can be adsorbed and grabbed by the vacuum grabbing part 401, the second cloth can be moved to the upper part of the bearing plate 2 where the first cloth 3 is placed by the vacuum grabbing part 401 under the condition that no wrinkles are generated, the first cloth 3 and the second cloth can be pressed together, the pressing effect of the first cloth 3 and the second cloth which cannot be wrinkled is greatly improved, the quality of clothing cannot be influenced, and the requirements of modern production are met.

In an embodiment, the pressing mechanism 40 further includes a detecting portion 403, where the detecting portion 403 is disposed on the pressing frame 103 and disposed on the moving path, the detecting portion 403 is capable of detecting a position where the second cloth adsorbed by the adsorbing portion 4011 is adsorbed on the adsorbing portion 4011, and transmitting the detected position information to a controller 404 connected to the detecting portion 403, and the controller 404 receives the position information and then controls the adsorbing portion 4011 to rotate, so as to adjust the second cloth to correspond to the position of the first cloth 3.

Referring to fig. 6, in the present embodiment, the pressing mechanism 40 further includes a carrier plate 2, a feeding portion, a detecting portion 403, and a controller 404, where the carrier plate 2 is disposed on the pressing frame 103, and the carrier plate 2 is used for placing the first fabric 3; the feeding part is arranged on the pressing frame 103 and is used for placing a second cloth; the vacuum grabbing portion 401 is connected with the press-fit frame 103, the vacuum grabbing portion 401 is used for grabbing the second cloth and moving the second cloth to the position above the first cloth 3, and a moving path of the second cloth to the first cloth 3 is a moving path; the detecting part 403 is disposed on the press-fit frame 103, and the detecting part 403 can detect the position of the second cloth grabbed by the vacuum grabbing part 401; the controller 404 is disposed on the press-fit frame 103, and the controller 404 can receive the position information of the second cloth detected by the detecting portion 403 and control the vacuum grabbing portion 401 to rotate, so as to adjust the second cloth to correspond to the position of the first cloth 3.

Specifically, the pressing mechanism 40 includes a pressing frame 103, a carrier plate 2, a feeding portion, a vacuum grabbing portion 401, a detecting portion 403 and a controller 404, where the carrier plate 2, the feeding portion, the vacuum grabbing portion 401, the detecting portion 403 and the controller 404 are all disposed on the pressing frame 103 and do not interfere with each other, the carrier plate 2 is used for placing a first fabric 3, the feeding portion is used for placing a second fabric, the vacuum grabbing portion 401 can grab the second fabric placed on the feeding portion and transfer the second fabric to the upper portion of the carrier plate 2 where the first fabric 3 is placed, and a path for moving the second fabric to the first fabric 3 is a moving path, when the vacuum grabbing portion 401 grabs the second fabric and moves along a predetermined moving path, the detecting portion 403 can detect position information of the second fabric placed on the vacuum grabbing portion 401, and transmit the position information to the controller 404, and the controller 404 can control the vacuum grabbing portion 401 to rotate, so that the position of the second fabric placed on the vacuum grabbing portion 401 can grab the second fabric and transfer the second fabric to the second fabric, and the second fabric can not accurately press the second fabric 3 to the second fabric 3 when the second fabric is pressed, and the second fabric is more accurately pressed, and the second fabric is not pressed, and the second fabric is more difficult to be pressed.

In an embodiment, the detecting unit 403 includes an image acquiring unit, the image acquiring unit is disposed on the press-fit frame 103, the image acquiring unit is disposed on the moving path of the vacuum grabbing unit 401, when the vacuum grabbing unit 401 grabs the second cloth and passes the image acquiring unit, the image acquiring unit can execute a photographing action and generate position information of the second cloth, and the controller 404 adjusts the position of the vacuum grabbing unit 401 according to the position information.

Specifically, the detecting portion 403 includes an image capturing portion, where the image capturing portion is disposed on the press frame 103 and passes through the image capturing portion when the vacuum capturing portion 401 captures the second cloth and moves along the moving path, and at this time, the image capturing portion photographs the second cloth placed on the vacuum capturing portion 401 and transmits position information in the photograph to the controller 404, so that the controller 404 can adjust the capturing position of the vacuum capturing portion 401 according to the position information, and after the vacuum capturing portion 401 is controlled to move above the carrier plate 2, the second cloth is offset and rotated in the X-axis or Y-axis direction of the press frame 103, so that the position of the second cloth corresponds to the position of the first cloth 3 completely.

In an embodiment, the controller 404 is connected to the image acquisition unit, the controller 404 may receive the position information generated by the image acquisition unit, determine that the second cloth is disposed at the position of the vacuum capturing unit 401, and when the position of the second cloth at the vacuum capturing unit 401 is different from the preset position, the controller 404 controls the position of the vacuum capturing unit 401 to be adjusted until the second cloth reaches the preset position.

Specifically, the control unit is connected to the image acquisition unit, after the controller 404 receives the position information generated by the image acquisition unit, the controller 404 determines the received position information, when the received position information is the same as the preset position information stored in the controller 404, the controller 404 does not adjust the position of the vacuum grabbing unit 401, when the position information received by the controller 404 is different from the preset position information stored in the controller 404, it may be determined that the grabbing position of the vacuum grabbing unit 401 is inaccurate, and at this time, the controller 404 controls the vacuum grabbing unit 401 to adjust the position until the position where the second cloth is located, and it may correspond to the position of the first cloth 3 on the carrier plate 2.

In an embodiment, the position information includes contour information of the second cloth and center point information of the second cloth.

Specifically, the position information includes contour information of the second cloth, that is, contour information of peripheral position points of the second cloth, and center point information of the second cloth, that is, position information of center points of the second cloth. After performing a photographing operation on the second cloth, the image acquisition unit directly generates corresponding contour information and center point information, and transmits these position information to the controller 404. Preferably, the position information may only include outline information of the second cloth, and it is only required to ensure that the controller 404 can accurately determine whether the position of the second cloth after being grabbed by the vacuum grabbing portion 401 is accurate, and whether the position information of the second cloth is the same as preset position information stored in the controller 404.

In an embodiment, a rotating motor is disposed on the vacuum grabbing portion 401, the controller 404 can control the vacuum grabbing portion 401 to rotate by controlling the rotating motor, the vacuum grabbing portion 401 can drive the second cloth to rotate synchronously, and when the second cloth rotates to a preset position, the vacuum grabbing portion 401 can descend to drive the second cloth to be pressed with the first cloth 3.

In an embodiment, the rotary motor can control the vacuum grip 401 to rotate in the X-axis direction of the vacuum grip 401 or the Y-axis direction of the vacuum grip 401.

Specifically, the rotating motor is arranged on the vacuum grabbing portion 401, the rotating motor is used for controlling the vacuum grabbing portion 401 to rotate or move, when the position of the second cloth grabbed by the vacuum grabbing portion 401 is inaccurate, the controller 404 can control the rotating motor to drive the vacuum grabbing portion 401 to move in the X-axis or Y-axis direction of the vacuum grabbing portion 401, the position of the vacuum grabbing portion 401 is adjusted, the position of the second cloth on the vacuum grabbing portion 401 is controlled to correspond to the position of the first cloth 3 on the bearing plate 2, and after the vacuum grabbing portion 401 descends, the second cloth can be accurately pressed with the first cloth 3.

In an embodiment, the detecting portion 403 further includes an auxiliary light source, where the auxiliary light source is disposed on the pressing frame 103, and light of the auxiliary light source can illuminate a shooting path of the image capturing portion.

Specifically, the detecting portion 403 further includes an auxiliary light source, where the auxiliary light source can emit light to illuminate the shooting path of the image capturing portion, so that the photo of the second cloth taken by the image capturing portion is more accurate, and an auxiliary effect can be provided for the image capturing portion to quickly refine the position information of the second cloth.

In an embodiment, the detecting portion 403 further includes a first fixing plate and a second fixing plate, the first fixing plate is connected to the press-fit frame 103, the second fixing plate is connected to the first fixing plate, the auxiliary light source is disposed on the first fixing plate, and the controller 404 is disposed on the second fixing plate.

In an embodiment, the auxiliary light source is movably disposed on the first fixing plate, so that an irradiation range of the light emitted by the auxiliary light source is adjustable.

The method for detecting the pressed part comprises the following specific steps: acquiring real-time characteristic points of the second cloth captured by the vacuum capturing part 401; and controlling the vacuum grabbing part 401 to rotate until the second cloth is at a preset position according to the difference between the real-time characteristic points and the preset characteristic points.

Specifically, the method for detecting the pressing mechanism 40 includes acquiring real-time feature points of the vacuum grabbing portion 401 grabbing the second fabric: that is, when the vacuum grabbing portion 401 moves on the moving path, the image obtaining portion can grab the second cloth passing through the image obtaining portion, take a picture of the second cloth, extract contour information and center point information on the second cloth, and integrate the contour information and the center point information into real-time feature points; according to the difference between the real-time characteristic points and the preset characteristic points, the vacuum grabbing portion 401 is controlled to rotate until the second cloth is located at the preset position, namely, according to the difference between the extracted real-time characteristic points and the preset characteristic points, the controller 404 controls the vacuum grabbing portion 401 to rotate so that the second cloth can be located at the position corresponding to the position of the first cloth 3 placed on the bearing plate 2, and when the second cloth descends to be pressed with the first cloth 3, pressing deviation cannot be generated.

In an embodiment, the pressing mechanism 40 and the detecting method for limiting the pressing mechanism 40 are disposed on the pressing mechanism 40 to solve the problem of inaccurate alignment between two fabrics that need to be pressed together. Be provided with loading board 2 on the support of pressing mechanism 40, loading board 2 is used for providing the pressfitting position for first cloth 3 and second cloth, and the first cloth 3 that has scribbled glue is placed on loading board 2, still be provided with feed portion and vacuum grasping portion 401 on pressing mechanism 40's support, be used for placing the second cloth of first cloth 3 pressfitting on the feed portion, the second cloth can be moved to first cloth 3 through the snatch of vacuum grasping portion 401, can pass through detection portion 403 in vacuum grasping portion 401 removal in-process, detection portion 403 sets up on the moving path of vacuum grasping portion 401, detection portion 403 can detect the specific position of the second cloth on the vacuum grasping portion 401, and detect profile information and the central point information of second cloth, send profile information and central point information to the controller 404 that is connected to pressing frame 103, make controller 404 adjust the direction and the position of vacuum grasping portion 401 according to received profile information and the central point information, make the position that the second cloth placed on vacuum grasping portion 401 and first cloth 3 place on the loading board 2 in the corresponding position, can not realize the accurate production of the second cloth, can not satisfy the demand that the quality is good can take place, the quality is bad to the clothing takes place.

In an embodiment, the garment production system 1 further includes a waiting mechanism 60, the waiting mechanism 60 is disposed between the glue brushing mechanism 20 and the glue dispensing mechanism 30, the frame 10 further includes a waiting frame 104, the waiting mechanism 60 is disposed on the waiting frame 104, a storage table 601 for placing the carrier boards 2 is disposed on the waiting mechanism 60, and when the glue dispensing mechanism 30 is one of the first cloths 3 placed on the carrier boards 2 is used for dispensing, the rest of the carrier boards 2 can stay on the storage table 601.

Specifically, the number of the waiting mechanisms 60 is two in this example, specifically, one waiting mechanism 60 is disposed between the starting workbench and the glue brushing mechanism 20, one waiting mechanism 60 is disposed between the glue brushing mechanism 20 and the glue dispensing mechanism 30, and the waiting mechanism 60 can be used for providing a temporary storage waiting position for the carrier plate 2.

In an embodiment, the garment production system 1 further includes a feeding and discharging mechanism 70, the feeding and discharging mechanism 70 includes a feeding mechanism 50 and a discharging mechanism 70, the feeding mechanism 50 includes a plurality of sections of feeding conveyor belts 501, the discharging mechanism 70 includes a plurality of sections of discharging conveyor belts 502, the feeding conveyor belts 501 and the discharging conveyor belts 502 are arranged one by one corresponding to the gluing mechanism 200 and the pressing mechanism 40, the feeding conveyor belts 501 can drive the carrier plates 2 to sequentially pass through the gluing mechanism 200 and the pressing mechanism 40, and the discharging conveyor belts 502 can drive the carrier plates 2 to sequentially pass through the gluing mechanism 200 and the pressing mechanism 40 and then move out of the garment production system 1.

Referring to fig. 7 to 8, in the present embodiment, the feeding and discharging mechanism 70 includes a carrying plate 2 and a plurality of work tables, where the carrying plate 2 is used for placing the first cloth 3; the feeding mechanism 50 comprises a plurality of sections of feeding conveyor belts 501, the sections of feeding conveyor belts 501 are arranged one by one corresponding to the plurality of work tables, and the feeding conveyor belts 501 can rotate to drive the bearing plate 2 to sequentially pass through the plurality of work tables; the discharging mechanism 70, the discharging mechanism 70 includes a plurality of sections of discharging conveyor belts 502, the sections of discharging conveyor belts 502 are arranged corresponding to a plurality of work tables one by one, and the discharging conveyor belts 502 can rotate to drive the bearing plate 2 to sequentially pass through a plurality of work tables.

Specifically, the feeding and discharging mechanism 70 includes a frame 10, and a plurality of work tables are disposed on the frame 10, wherein the carrier plate 2 is disposed on any one of the work tables, and the first cloth 3 is disposed on the carrier table. In this example, the plurality of working tables at least include a glue brushing mechanism 20 and a pressing mechanism 40, the carrying table can move to the glue brushing mechanism 20 through the feeding mechanism 50, the glue brushing mechanism 20 brushes the first cloth 3 placed on the carrying table, the first cloth 3 after glue brushing can move to the pressing mechanism 40 through the carrying table, so that the first cloth 3 after glue brushing can be pressed with the second cloth placed on the pressing mechanism 40, and a semi-finished product of the garment is formed. The specific feeding mechanism 50 includes a multi-stage feeding conveyor 501, by which the carrier plate 2 is moved to a plurality of stages. And after the first cloth 3 and the second cloth are pressed to form a semi-finished product of the clothing, the bearing table can be lowered onto the discharging mechanism 70, the discharging mechanism 70 comprises a plurality of sections of discharging conveyor belts 502, and the bearing table can be moved through the plurality of sections of discharging conveyor belts 502, so that the semi-finished product of the clothing formed by the first cloth 3 and the second cloth is moved to a place to be recovered by workers through the bearing table. Therefore, the production efficiency of the semi-finished clothing is improved without manual intervention in the processing process of the first cloth 3 and the second cloth.

In an embodiment, the feeding mechanism 50 and the discharging mechanism 70 correspond to the number of the work tables, and two feeding conveyor belts 501 and one feeding driving motor are correspondingly arranged at the upper part of each work table, wherein the feeding conveyor belts 501 are connected with the feeding driving motors, and the feeding driving motors can drive the feeding conveyor belts 501 to rotate; two discharging conveyor belts 502 and a discharging driving motor are correspondingly arranged at the lower part of each workbench, the discharging conveyor belts 502 are connected with the discharging driving motor, and the discharging driving motor can drive the discharging conveyor belts 502 to rotate.

Specifically, the number of the feeding mechanism 50 and the discharging mechanism 70 are also in one-to-one correspondence with the number of the work tables, specifically, two feeding conveyor belts 501 are arranged on each work table, a distance capable of placing the bearing plate 2 is reserved between the two feeding conveyor belts 501, the two feeding conveyor belts 501 are arranged on the same plane of the work table, the feeding mechanism 50 further comprises a feeding driving motor, the feeding driving motor can be connected with the two feeding conveyor belts 501 located on the same work table, the feeding driving motor drives the conveyor belts to rotate, and the rotating conveyor belts can drive the bearing plate 2 arranged on the conveyor belts to move. For example, after the brushing of the brushing mechanism 20 is finished, the feeding driving motor drives the feeding conveyor belt 501 to rotate, so that the bearing table after finishing the brushing and the first cloth 3 placed on the bearing table move to the pressing mechanism 40 through the rotation of the conveyor belt. The discharging mechanism 70 is similar, when the first cloth 3 and the second cloth are pressed to form a semi-finished product of the garment, the discharging driving motor on the discharging mechanism 70 drives the discharging conveyor belt 502 to rotate, so that the bearing plate 2 placed on the discharging conveyor belt 502 moves.

In an embodiment, two feeding conveyor belts 501 are respectively disposed at two ends of one workbench, so that the carrier plate 2 can move along the X-axis direction of the workbench, and the distance between the two feeding conveyor belts 501 disposed on each workbench is the same, so that the carrier plate 2 can move along the X-axis directions of a plurality of the workbench.

Specifically, two ends of each workbench are provided with feeding conveyor belts 501, in this embodiment, the glue brushing mechanism 20 and the pressing mechanism 40 are arranged side by side, and two feeding conveyor belts 501 on the glue brushing mechanism 20 and the pressing mechanism 40 are respectively arranged at two ends of the glue brushing mechanism 20 and the pressing mechanism 40 and located in the same extending direction, so that a bearing table on the feeding conveyor belts 501 arranged on the glue brushing mechanism 20 can be directly moved to the feeding conveyor belts 501 arranged on the pressing mechanism 40.

In an embodiment, the feeding mechanism 50 further includes a feeding belt pulley, the feeding belt pulley is connected to the feeding conveyor 501, the feeding belt pulley is connected to the feeding driving motor, and the feeding belt pulley can drive the carrier plate 2 to move along the X-axis direction of the carrier plate 2.

In an embodiment, the feeding mechanism 50 further includes a feeding driving link, the feeding driving link is disposed between the two feeding conveyor belts 501, the feeding driving link is provided with a feeding driving motor, and the feeding driving motor can drive the feeding belt pulley to rotate through the feeding driving link, so that the feeding conveyor belts 501 move.

Specifically, the feeding mechanism 50 includes feeding pulleys wound on the feeding conveyor belts 501, one feeding pulley is wound on each feeding conveyor belt 501, and a feeding driving link is provided between two feeding conveyor belts 501 provided on the same table, and a feeding driving motor is provided on the feeding driving link, and can drive the feeding pulleys to rotate through the feeding driving link, so that the feeding is driven to be transmitted to the bearing plate 2 provided on the feeding conveyor belts 501 to move.

In other embodiments, the working table may further include a dispensing working table, where the dispensing working table is an outline dispensing of the first cloth 3, and a waiting working table, where the waiting working table may be the brushing mechanism 20, the dispensing working table, and the pressing mechanism 40, when the first cloth 3 is working, the first cloth 3 that is not processed yet is temporarily stored.

In an embodiment, two discharging conveyor belts 502 are respectively disposed at two ends of the lower portion of one workbench, so that the carrying plate 2 can move along the X-axis direction of the workbench, the distance between the two discharging conveyor belts 502 disposed on each workbench is the same, so that the carrying plate 2 can move along the X-axis directions of a plurality of the workbench, and the moving direction of the carrying plate 2 on the feeding mechanism 50 is opposite to the moving direction of the carrying plate 2 on the discharging mechanism 70.

Specifically, two discharging conveyor belts 502 are disposed at the lower portion of each workbench, the two discharging conveyor belts 502 are disposed in the same direction as the two feeding conveyor belts 501 disposed at the upper portion of the same workbench, and the distance between the two discharging conveyor belts 502 disposed on the same workbench is the same as the distance between the two feeding conveyor belts 501 disposed at the upper portion of the same workbench, so that the carrying member can also move from the discharging conveyor belts 502. After passing through the plurality of work tables, the carrying table descends to the plane where the discharging mechanism 70 is located, and the discharging conveyor belt 502 on the discharging mechanism 70 drives the carrying table and the semi-finished products of the clothing placed on the carrying table to move out.

In an embodiment, the discharging mechanism 70 further includes a discharging belt pulley, the discharging belt pulley is connected to the discharging belt 502, the discharging belt pulley is connected to the discharging driving motor, the discharging belt pulley can drive the carrying plate 2 to move along the X-axis direction of the carrying plate 2, and the carrying plate 2 is located in the moving direction of the feeding belt 501 and the carrying plate 2 is located in the opposite moving direction of the discharging belt 502.

In an embodiment, the discharging mechanism 70 further includes a discharging driving link, where the discharging driving link is disposed between the two discharging conveyor belts 502, and the discharging driving link is provided with a discharging driving motor, and the discharging driving motor can drive the discharging belt pulley to rotate through the discharging driving link, so that the discharging conveyor belts 502 move.

Specifically, the discharging mechanism 70 includes a discharging belt pulley, the discharging belt pulley is wound on the discharging conveyor belts 502, a discharging belt pulley is wound on each discharging conveyor belt 502, a discharging driving connecting rod is arranged between two discharging conveyor belts 502 arranged on the same workbench, a discharging driving motor is arranged on the discharging driving connecting rod, and the discharging driving motor can drive the discharging belt pulley to rotate through the discharging driving connecting rod, so that the discharging is driven to be transmitted to the bearing plate 2 arranged on the discharging conveyor belts 502 to move.

In an embodiment, the workbench at least comprises a start workbench and a return workbench, the start workbench and the return workbench are arranged at two ends of the frame 10, a first lifting cylinder and a second lifting cylinder are respectively arranged on the start workbench and the return workbench, and the second lifting cylinder can drive the bearing plate 2 positioned at the upper part of the return workbench to descend to the discharging mechanism 70 positioned at the lower part of the return workbench; the first lifting cylinder can drive the bearing plate 2 positioned at the lower part of the initial workbench to lift to the feeding mechanism 50 positioned at the upper part of the initial workbench.

Specifically, the multiple work tables include a start work table and a return work table, the start work table and the return work table are arranged on two sides of the glue brushing mechanism 20 and the pressing mechanism 40, a first lifting cylinder is arranged on the start work table, a second lifting cylinder is arranged on the return work table, the first lifting cylinder and the second lifting cylinder can control the bearing table to ascend or descend to the horizontal plane of the feeding mechanism 50 or the discharging mechanism 70, when the bearing table is driven by the feeding transmission belt, the bearing table is transferred to the return work table by the feeding transmission belt 501 after the glue brushing pressing action is completed, the second lifting cylinder arranged on the return work table controls the bearing plate 2 to descend to be located on the same plane with the discharging mechanism 70, the bearing table can control the bearing plate 2 to ascend through the conveying belt 502 after passing through the pressing mechanism 40 and the glue brushing mechanism 20, the first lifting cylinder arranged on the start work table is used for controlling the bearing plate 2 to ascend, feeding and discharging actions are completed, and semi-finished clothes formed by the first cloth 3 and the second cloth processing and placed on the bearing plate 2 are manually collected.

The invention also proposes a garment production system 1 comprising a feed and discharge mechanism 70 as described above.

In one embodiment, the carrier plate 2 is used for placing the first cloth 3 by arranging the carrier plate 2 and a plurality of work tables on the frame 10 of the clothing production system 1; the feeding mechanism 50 is arranged so that the bearing plate 2 with the first cloth 3 can move to each workbench through the feeding mechanism 50, the feeding mechanism 50 comprises a plurality of sections of feeding conveyor belts 501, the sections of feeding conveyor belts 501 are arranged one by one corresponding to the plurality of the workbench, and the feeding conveyor belts 501 can rotate to drive the bearing plate 2 to sequentially pass through the plurality of the workbench; the first cloth 3 placed on the carrying plate 2 after passing through the plurality of work tables is brushed and pressed together with the second cloth to form a semi-finished product of clothing, at the moment, the carrying plate 2 with the semi-finished product of clothing placed thereon passes through the discharging mechanism 70, the discharging mechanism 70 comprises a plurality of sections of discharging conveying belts 502, the sections of discharging conveying belts 502 are arranged one by one corresponding to the plurality of work tables, and the discharging conveying belts 502 can rotate to drive the carrying plate 2 to sequentially pass through the plurality of work tables. The semi-finished product of the garment is enabled to completely avoid manual interference during brushing and pressing, the accuracy of brushing and pressing between the first cloth 3 and the second cloth is improved, the feeding mechanism 50 and the discharging mechanism 70 are used for helping the bearing plate 2 to drive the first cloth 3 to feed and drive the semi-finished product of the garment to return through the bearing plate 2, the feeding mechanism 50 and the discharging mechanism 70 are stable in feeding and discharging effect, the transferring efficiency is not affected, and the production efficiency of the garment is improved.

In an embodiment, the glue brushing frame 101, the waiting frame 104, the dispensing frame 102 and the pressing frame 103 are arranged side by side.

Specifically, the feeding and discharging mechanism 70 is disposed on the frame 10, and the carrier plate 2 can move on the feeding and discharging mechanism 70 to send the pressed first cloth 3 and the second cloth out of the garment production system 1.

Because the garment production system 1 adopts all the technical schemes of all the embodiments, at least the technical schemes of the embodiments have all the beneficial effects, and the description is omitted herein.

In one embodiment, the first cloth 3 is placed by providing a movable carrying board 2 on the frame 10 of the clothing production system 1 and by said carrying board 2; the gluing mechanism 200 is arranged on the frame 10, and the bearing plate 2 can move to the gluing mechanism 200, so that the gluing mechanism 200 is used for brushing glue on the upper surface of the first cloth 3; the first cloth 3 after rubberizing can be moved to the pressing mechanism 40 by the loading board 2, the pressing mechanism 40 is arranged on the frame 10, after the loading board 2 passing through the rubberizing mechanism 200 moves to the pressing mechanism 40, the vacuum grabbing part 401 arranged on the pressing mechanism 40 can adsorb the second cloth, the vacuum grabbing part 401 can drive the second cloth to the upper part of the loading board 2, so that the second cloth is pressed with the upper surface of the first cloth 3, and a semi-finished product of the garment is formed after the first cloth 3 and the second cloth are pressed. The processing to first cloth 3 and second cloth can be realized only by using complete clothing production system 1, the first cloth 3 and second cloth do not need to be transported between a plurality of machines manually, waste of human resources and material resources is avoided, and the clothing production system 1 is integrally arranged, so that manual interference is not needed in the process of forming semi-finished products of clothing by the first cloth 3 and the second cloth, full-automatic production is realized, production efficiency is improved, alignment between the first cloth 3 and the second cloth is realized by using a vacuum grabbing part 401 on a pressing mechanism 40, accurate pressing positions of the first cloth 3 and the second cloth can be ensured, and the probability of producing inferior products is lower.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structural changes made by the specification and drawings of the present invention or direct/indirect application in other related technical fields are included in the scope of the present invention.

Claims (10)

1. A garment production system, comprising:

the machine frame is provided with a movable bearing plate, and the bearing plate is used for placing a first cloth;

the gluing mechanism is arranged on the frame, and the bearing plate can move to the gluing mechanism, so that the gluing mechanism is used for gluing the upper surface of the first cloth;

the pressing mechanism is arranged on the frame, the bearing plate passing through the gluing mechanism can move to the pressing mechanism, the pressing mechanism comprises a vacuum grabbing part, the vacuum grabbing part is used for adsorbing second cloth, and the vacuum grabbing part is used for driving the second cloth to the upper part of the bearing plate so that the second cloth is pressed with the upper surface of the first cloth.

2. The garment production system of claim 1, wherein the frame comprises a sizing frame, the sizing frame comprises a brushing frame, the sizing mechanism comprises a brushing mechanism, the brushing mechanism is arranged on the brushing frame, the brushing mechanism comprises a brushing portion, the brushing portion is arranged at the upper end of the brushing frame, a brushing head is arranged on the brushing portion, and the brushing head is used for brushing the upper surface of the first cloth.

3. The garment production system of claim 2, wherein the sizing frame further comprises a dispensing frame, the sizing mechanism further comprises a dispensing mechanism, the dispensing mechanism is arranged on the dispensing frame, the dispensing mechanism comprises a dispensing head and first sliding rails arranged at two ends of the dispensing frame along the Y-axis direction of the dispensing frame, the dispensing head is connected with the first sliding rails, and the dispensing head can move to dispense along the Y-axis direction of the dispensing frame.

4. The garment production system of claim 3, wherein the dispensing mechanism further comprises a dispensing moving part, the dispensing head is arranged on the dispensing moving part, the dispensing moving part is connected with the first sliding rails arranged at two ends of the dispensing frame, and the dispensing head can move dispensing along the X-axis direction of the dispensing frame through the dispensing moving part.

5. The garment production system of claim 1, wherein the frame further comprises a press-fit frame, the press-fit mechanism is disposed on the press-fit frame, the press-fit mechanism further comprises a second slide rail, the second slide rail is disposed at two ends of the press-fit frame along a Y-axis direction of the press-fit frame, the vacuum grabbing portion is disposed on the second slide rail, and the vacuum grabbing portion is configured to adsorb the second cloth placed on the outside and press-fit the second cloth with the first cloth on the carrying table.

6. The garment production system of claim 5, wherein the vacuum gripping portion comprises a connecting portion and an adsorption portion connected with the connecting portion, the connecting portion is connected with the second slide rail, and a path of the adsorption portion for adsorbing the second cloth outside and then moving to the carrying table is a moving path.

7. The garment production system according to claim 6, wherein the pressing mechanism further comprises a detecting portion, the detecting portion is disposed on the pressing frame and disposed on the moving path, the detecting portion is capable of detecting a position of the second cloth adsorbed by the adsorbing portion, which is adsorbed on the adsorbing portion, and transmitting the detected position information to a controller connected to the detecting portion, and the controller receives the position information and then controls the adsorbing portion to rotate, so that the second cloth is adjusted to correspond to the position of the first cloth.

8. The garment production system of claim 4, further comprising a waiting mechanism disposed between the brushing mechanism and the dispensing mechanism, wherein the frame further comprises a waiting frame, the waiting mechanism is disposed on the waiting frame, a storage table for placing the carrier plates is disposed on the waiting mechanism, the number of the carrier plates is plural, and when the dispensing mechanism is dispensing the first cloth placed on one of the carrier plates, the rest of the carrier plates can stay on the storage table.

9. The garment production system of claim 1, further comprising a feed and discharge mechanism, wherein the feed and discharge mechanism comprises a feed mechanism and a discharge mechanism, wherein the feed mechanism comprises a plurality of sections of feed conveyor belts, wherein the discharge mechanism comprises a plurality of sections of discharge conveyor belts, wherein the feed conveyor belts and the discharge conveyor belts are arranged one by one corresponding to the sizing mechanism and the pressing mechanism, wherein the feed conveyor belts can drive the carrier plates to sequentially pass through the sizing mechanism and the pressing mechanism, and wherein the discharge conveyor belts can drive the carrier plates to sequentially pass through the sizing mechanism and the pressing mechanism and then move out of the garment production system.

10. The garment production system of any one of claims 1 to 9, wherein the brushing frame, the waiting frame, the dispensing frame and the laminating frame are disposed side-by-side.