CN221252056U - Automatic folding bagging vacuum sealing equipment for clothing - Google Patents

Abstract

The utility model relates to the technical field related to clothing packaging equipment, in particular to automatic clothing folding bagging vacuum sealing equipment which comprises a first belt assembly, a second belt assembly, a third belt assembly, a fourth belt assembly, a bag storage bin, a fifth belt assembly and a sixth belt assembly, wherein a layering assembly is arranged above the first belt assembly, left and right turning plate assemblies are arranged on two sides of the second belt assembly, a clothes pressing hook assembly and a longitudinal turning plate assembly are arranged below the third belt assembly, a clothes feeding assembly is arranged above the fourth belt assembly, a bag opening assembly is arranged between the bag storage bin and the fourth belt assembly, a claw removing assembly is arranged above the fifth belt assembly, and a vacuumizing sealing mechanism is arranged above the sixth belt assembly and comprises a vacuumizing assembly and a hot cutting sealing assembly. The automatic folding bagging vacuum sealing equipment for the clothing is convenient and quick to package, is suitable for continuous production, and greatly improves bagging efficiency.

Description

Automatic folding bagging vacuum sealing equipment for clothing

Technical Field

The utility model relates to the technical field related to clothing packaging equipment, in particular to automatic clothing folding bagging vacuum sealing equipment.

Background

With the development of technology, the clothing industry in China has a great development in recent years. In the clothing industry, the ready-made clothes manufactured generally need to be packaged (folded, bagged and sealed), and the general clothing industry basically adopts manual work to package piece by piece, so that the work efficiency is low, different people can not avoid different clothing folded out, the packaged ready-made clothes are attractive in appearance, the manual labor intensity is high, much inconvenience is brought to production, and the cost is increased intangibly.

In the existing clothing folding bagging technology, chinese patent grant publication No. CN 202389610U discloses a full-automatic vertical clothing packaging machine, after clothing enters the clothing packaging machine, a lifting system is controlled by an induction system to rise to a designated position, a plastic film bag is clamped firmly by an opening and closing gripper of the clothing packaging machine, the opening and closing gripper moves downwards along with a lifting plate, the plastic film bag is pulled to a proper length, and the plastic film bag is cut off by a cutter. The defects are that: the clothing cannot be completely wrapped in the plastic film bag, and the clothing cannot be sealed, and the subsequent manual packaging is still needed to be performed manually, so that the packaging efficiency is affected to a certain extent; and is unfavorable for flow production.

Disclosure of utility model

Aiming at the defects existing in the prior art, the utility model aims to provide the automatic clothing folding bagging vacuum sealing equipment which is convenient and quick to package and is suitable for the production of the assembly line.

The aim of the utility model can be achieved by the following technical scheme: the utility model provides an automatic cover bag vacuum seal equipment that folds of clothing, which comprises a frame and first belt subassembly, the second belt subassembly, the third belt subassembly, the fourth belt subassembly, the sack is deposited the feed bin, fifth belt subassembly and sixth belt subassembly in proper order on the frame, the top of first belt subassembly is provided with the layering subassembly, the both sides of second belt subassembly are provided with the left and right sides and turn over the board subassembly, the below of third belt subassembly is provided with presses clothes hook assembly and vertical board subassembly, the top of fourth belt subassembly is provided with the clothing subassembly that send, be provided with the opening subassembly between sack deposit the feed bin and the fourth belt subassembly, the top of fifth belt subassembly is provided with the claw subassembly, the sixth belt subassembly top is provided with evacuation sealing mechanism, evacuation sealing mechanism includes evacuation subassembly and hot cutting sealing subassembly; the clothes feeding component comprises a clothes feeding guide rail, a clothes feeding synchronous belt, a clothes feeding driving piece, a synchronous shaft and a clothes feeding support, wherein the clothes feeding support is in sliding fit with the clothes feeding guide rail through a clothes feeding sliding seat, the output end of the clothes feeding driving piece is in transmission connection with the synchronous shaft, the two ends of the synchronous shaft are provided with the clothes feeding synchronous belt, the clothes feeding sliding seat is fixedly connected with the clothes feeding synchronous belt, a clothes supporting lifting plate is slidably arranged on the clothes feeding support, the clothes supporting lifting plate is in threaded connection with a lifting plate driving screw rod arranged on the clothes feeding support through a screw rod nut, one end of the lifting plate driving screw rod is in transmission connection with a lifting plate driving piece, and a plurality of clothes supporting hooks are arranged at the lower end of the clothes supporting lifting plate.

Preferably, a clothes pressing plate is arranged above the clothes supporting hook, a clothes pressing plate driving piece is arranged on the clothes feeding bracket, and the output end of the clothes pressing plate driving piece is connected with the clothes pressing plate.

Preferably, the layering subassembly includes layering support, layering drive condition, layering bottom plate, layering mount pad, two layering and first two-way lead screw, and layering support erects in first belt subassembly top, and layering drive condition fixed mounting is on layering support, and layering bottom plate is connected in the output of layering drive condition, and two layering pass through two layering mount pads and slide and set up on layering bottom plate, and two layering mount pads all with install the first two-way lead screw threaded connection on layering bottom plate.

Preferably, the left and right turning plate assembly comprises a guide rail backing plate, a left mounting plate, a left supporting plate, a left turning plate, a right mounting plate, a right supporting plate and a right turning plate, wherein the left mounting plate and the right mounting plate are slidably arranged on the guide rail backing plate through first guide rails, the left supporting plate and the right supporting plate are slidably arranged above the left mounting plate and the right mounting plate respectively through guide posts, the left turning plate and the right turning plate are slidably arranged above the left supporting plate and the right supporting plate respectively through second guide rails, a turning plate jacking driving piece and a turning plate translation driving piece are arranged below the left supporting plate and the right supporting plate, the turning plate jacking driving piece is used for driving the left supporting plate and the right supporting plate to lift, and the turning plate translation driving piece is used for driving the left turning plate and the right turning plate to horizontally move, and the left mounting plate and the right mounting plate are in threaded connection with a second bidirectional screw rod arranged on the frame through screw nuts.

Preferably, the clothes pressing hook assembly comprises a clothes pressing fixing plate, a third guide rail, clothes pressing hook sliding seats, clothes pressing hook lifting driving parts, clothes pressing hooks and opening and closing driving parts, wherein the two clothes pressing hook sliding seats are symmetrically arranged on the clothes pressing fixing plate through the third guide rail, opening and closing driving parts used for driving the clothes pressing hook sliding seats to slide along the third guide rail are arranged on the clothes pressing fixing plate, the clothes pressing hook lifting driving parts are all arranged on the two clothes pressing hook sliding seats, and the clothes pressing hooks are arranged at the output ends of the clothes pressing hook lifting driving parts.

Preferably, the longitudinal turning plate assembly comprises a turning plate rotating shaft, elastic bands, turning plate strips and turning plate strip driving pieces, a plurality of turning plate strips are arranged on the turning plate rotating shaft at intervals, the elastic bands are connected to the turning plate strips, and the output ends of the turning plate strip driving pieces are in transmission connection with the turning plate rotating shaft.

Preferably, the bag opening assembly comprises a movable plate, a bag opening guide rail and a third bidirectional screw rod, wherein the bag opening guide rail is arranged on the movable plate, a left rotary cylinder mounting seat and a right rotary cylinder mounting seat are arranged on the bag opening guide rail in a sliding mode, a bag opening blowing plate, a movable plate driving piece, a right rotary cylinder mounting seat and a right rotary cylinder are arranged on the third bidirectional screw rod, the left rotary cylinder mounting seat and the right rotary cylinder mounting seat are in sliding fit with the bag opening guide rail arranged on the movable plate, the left rotary cylinder mounting seat and the right rotary cylinder mounting seat are in threaded connection with the third bidirectional screw rod arranged on the movable plate, the output ends of the left rotary cylinder and the right rotary cylinder are provided with bag opening supporting pieces, the bag opening blowing plate is arranged between the two bag opening supporting pieces, and the movable plate driving piece is arranged below the movable plate.

Preferably, the bag storage bin comprises a bag placing fixing plate and baffle plates, a bag opening adjusting shaft and a fourth bidirectional screw rod are arranged at the bottom of the bag placing fixing plate, two baffle plates are arranged on the bag opening adjusting shaft in a sliding mode, and the lower ends of the two baffle plates are in threaded connection with the fourth bidirectional screw rod through screw nuts.

Preferably, the claw removing assembly comprises a bag pressing mounting plate and a bag pressing bottom rod, wherein the bag pressing mounting plate and the bag pressing bottom rod are arranged on the upper side and the lower side of the fifth belt assembly, the bag pressing cushion block driving piece is arranged on the bag pressing mounting plate, the output end of the bag pressing cushion block driving piece is connected with a bag pressing cushion block, the bag pressing driving piece is arranged on the bag pressing bottom rod, the output end of the bag pressing driving piece is connected with a jacking plate, and the jacking plate is provided with a bag pressing cushion block which is opposite to the bag pressing cushion block up and down.

Preferably, the vacuumizing assembly comprises a vacuumizing lifting driving piece, a bidirectional screw rod module, a left nut seat and a right nut seat which are arranged on the bidirectional screw rod module, wherein vacuumizing driving pieces are arranged on the left nut seat and the right nut seat, and vacuumizing pipes are arranged at the output ends of the vacuumizing driving pieces. The bidirectional screw rod module comprises a fifth bidirectional screw rod and a screw rod driving piece for driving the fifth bidirectional screw rod to rotate, the left nut seat and the right nut seat are in threaded connection with the fifth bidirectional screw rod, a blank pressing driving piece is arranged beside the vacuumizing tube, and the output end of the blank pressing driving piece is connected with a blank pressing block.

Preferably, the hot-cutting sealing assembly comprises a hot-cutting knife driving piece, an upper pressing bar driving piece, a hot-cutting knife and a sealing plate, wherein the output end of the hot-cutting knife driving piece is connected with the hot-cutting knife, the output end of the upper pressing bar driving piece is connected with the sealing plate, the knife rest driving piece is arranged below the hot-cutting knife, and the output end of the knife rest driving piece is connected with a knife rest which is arranged up and down relative to the hot-cutting knife.

Preferably, a bag pressing assembly is arranged above the sixth belt assembly, and comprises a bag pressing plate and a bag pressing plate driving piece for driving the bag pressing plate to lift.

The beneficial effects of the utility model are as follows: according to the automatic clothing folding bagging vacuum sealing equipment, clothing is conveyed through the belt assembly, the clothing is automatically folded through the left and right turning plate assemblies and the longitudinal turning plate assemblies, the folded clothing is conveyed into the bag through the clothing conveying assembly, the bag is vacuumized through the vacuumizing sealing mechanism after bagging, meanwhile, sealing and packaging are carried out, packaging is convenient and rapid, the automatic clothing folding bagging vacuum sealing equipment is suitable for flow production, and compared with manual bagging efficiency, the automatic clothing folding bag is greatly improved.

Drawings

The utility model will be further described with reference to the accompanying drawings, in which embodiments do not constitute any limitation of the utility model, and other drawings can be obtained by one of ordinary skill in the art without inventive effort from the following drawings.

Fig. 1 is a schematic structural view of an automatic garment folding bagging vacuum sealing device of the present utility model.

Fig. 2 is a schematic structural view of a first belt assembly and a bead assembly in an automatic garment folding bagging vacuum sealing apparatus of the present utility model.

Fig. 3 is a schematic structural view of a pressing strip assembly in the automatic clothing folding bagging vacuum sealing device.

Fig. 4 is a schematic structural view of a left and right flap assembly in the automatic garment folding bagging vacuum sealing device of the present utility model.

Fig. 5 is a schematic structural view of a third belt assembly in the automatic folding pocket vacuum sealing apparatus for clothing according to the present utility model.

Fig. 6 is a schematic structural view of a clothes pressing hook assembly and a longitudinal flap assembly in the automatic clothes folding bagging vacuum sealing device.

Fig. 7 is a schematic structural view of a fourth belt assembly, a bag opening assembly, a bag storage bin and a clothes feeding assembly in the automatic clothing folding bagging vacuum sealing device.

Fig. 8 is another schematic structural view of a fourth belt assembly, a bag opening assembly, a bag storage bin and a clothes feeding assembly in the automatic clothing folding bagging vacuum sealing device of the utility model.

Fig. 9 is a schematic structural view of a bag opening assembly and a bag storage bin in the automatic clothing folding bagging vacuum sealing device.

Fig. 10 is a schematic structural view of a vacuum sealing mechanism in a vacuum sealing apparatus for automatically folding a garment bag according to the present utility model.

Fig. 11 is a schematic structural view of a claw removing assembly in a vacuum sealing apparatus for automatically folding a garment bag according to the present utility model.

Fig. 12 is a schematic structural view of a heat-seal assembly of an automatic folding pocket vacuum sealing apparatus for clothing according to the present utility model.

Fig. 13 is a schematic structural view of a vacuum pumping assembly in the automatic folding bagging vacuum sealing device for clothing according to the present utility model.

The reference numerals shown in the figures are represented as: 1. a first belt assembly; 2. a batten assembly; 201. a batten bracket; 202. a molding drive condition; 203. a layering bottom plate; 204. a pressing bar mounting seat; 205. pressing strips; 206. a first bidirectional screw rod; 3. a second belt assembly; 4. left and right flap assemblies; 401. a guide rail backing plate; 402. a right mounting plate; 403. a first guide rail; 404. a left mounting plate; 405. a guide post; 406. a left supporting plate; 407. a second guide rail; 408. a left turning plate; 409. a right supporting plate; 410. a right turning plate; 411. the turning plate lifts the driving piece; 412. a second bidirectional screw rod; 413. connecting a hinged support; 414. a flap translation drive; 5. a third belt assembly; 501. folding the supporting plate; 6. a clothes pressing hook assembly; 601. a clothes pressing fixing plate; 602. a third guide rail; 603. a clothes pressing hook sliding seat; 604. a clothes pressing hook lifting driving piece; 605. a clothes pressing hook; 606. an opening and closing driving member; 7. a longitudinal flap assembly; 701. a turnover plate rotating shaft; 702. an elastic band; 703. turning the batten; 704. turning the slat driver; 8. a fourth belt assembly; 9. a bag opening assembly; 901. a movable plate; 902. a bag opening guide rail; 903. a left rotary cylinder mounting seat; 904. a third bidirectional screw rod; 905. a left rotary cylinder; 906. opening a bag and supporting sheets; 907. a bag pressing and blowing plate; 908. a movable plate driving member; 909. a right rotary cylinder mounting seat; 910. a right rotary cylinder; 10. a bag storage bin; 1001. placing a bag fixing plate; 1002. a baffle; 1003. a bag opening adjusting shaft; 1004. a fourth bidirectional screw rod; 11. a clothes feeding component; 1101. a clothes-feeding guide rail; 1102. a clothes feeding synchronous belt; 1103. a clothes feeding driving piece; 1104. a synchronizing shaft; 1105. a clothes-feeding slide seat; 1106. a clothes feeding bracket; 1107. a clothes supporting lifting plate; 1108. a lifter plate driving member; 1109. the lifting plate drives the screw rod; 1110. a garment pressing plate driving member; 1111. a clothes pressing plate; 1112. a clothes-holding hook; 12. a fifth belt assembly; 13. a claw disengagement assembly; 1301. a pressing bag mounting plate; 1302. a bag pressing cushion block driving piece; 1303. pressing a bag cushion block; 1304. a top bag bottom rod; 1305. a top bag drive; 1306. a jacking plate; 1307. a top bag cushion block; 14. a vacuum pumping assembly; 1401. a vacuum pumping lifting driving piece; 1402. a bidirectional screw rod module; 1403. a left nut seat; 1404. a vacuum tube driving member; 1405. vacuumizing the tube; 1406. a right nut seat; 1407. a fifth bidirectional screw rod; 1408. a screw rod driving member; 1409. a blank holder driving member; 1410. edge pressing blocks; 15. a hot-cut seal assembly; 1501. a hot knife driving member; 1502. an upper molding driving condition; 1503. a hot cutter; 1504. sealing plate; 1505. a knife rest driving member; 1506. a knife rest; 16. a bag pressing assembly; 1601. a bag pressing plate driving member; 1602. a bag pressing plate; 17. and a sixth belt assembly.

Detailed Description

It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present utility model, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. 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 utility model.

The technical solutions of the present utility model will be clearly and completely described below in conjunction with specific embodiments, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to fall within the scope of the utility model.

Referring to fig. 1 to 6, the structure of the present utility model is as follows: the utility model provides an automatic cover bag vacuum seal equipment that folds of clothing, including frame and the first belt subassembly 1 that sets gradually in the frame, second belt subassembly 3, third belt subassembly 5, fourth belt subassembly 8, bag deposit storehouse 10, fifth belt subassembly 12 and sixth belt subassembly 17, the top of first belt subassembly 1 is provided with layering subassembly 2, the both sides of second belt subassembly 3 are provided with controls and turn over board subassembly 4, the below of third belt subassembly 5 is provided with presses clothes hook subassembly 6 and vertical board subassembly 7 turns over, the top of fourth belt subassembly 8 is provided with send clothing subassembly 11, be provided with between bag deposit storehouse 10 and the fourth belt subassembly 8 and open bag subassembly 9, A disengaging pawl assembly 13 is arranged above the fifth belt assembly 12, a vacuumizing sealing mechanism is arranged above the sixth belt assembly 17, and the vacuumizing sealing mechanism comprises a vacuumizing assembly 14 and a hot cutting sealing assembly 15; The clothes feeding component 11 comprises a clothes feeding guide rail 1101, a clothes feeding synchronous belt 1102, a clothes feeding driving part 1103, a synchronous shaft 1104 and a clothes feeding bracket 1106, the clothes feeding bracket 1106 is in sliding fit with the clothes feeding guide rail 1101 through a clothes feeding sliding seat 1105, the output end of the clothes feeding driving part 1103 is in transmission connection with the synchronous shaft 1104, the two ends of the synchronous shaft 1104 are provided with the clothes feeding synchronous belt 1102, the clothes feeding sliding seat 1105 is fixedly connected with the clothes feeding synchronous belt 1102, a clothes supporting lifting plate 1107 is arranged on the clothes feeding bracket 1106 in a sliding manner, the clothes supporting lifting plate 1107 is in threaded connection with a lifting plate driving screw 1109 arranged on the clothes feeding bracket 1106 through a screw nut, one end of the lifting plate driving screw rod 1109 is connected with a lifting plate driving piece 1108 in a transmission way, and a plurality of clothes supporting hooks 1112 are arranged at the lower end of the clothes supporting lifting plate 1107. Specifically, the clothes feeding driving piece 1103 and the lifting plate driving piece 1108 can be driven by a servo motor, when clothes are fed onto the second belt assembly 3 according to the first belt assembly 1, the clothes are pressed down by the layering assembly 2, then the clothes are folded by the left and right turning plate assemblies 4, the folded clothes are conveyed onto the third belt assembly 5, the clothes are pressed down by the clothes pressing hook assembly 6, then the clothes are folded again by the longitudinal turning plate assembly 7, the folded clothes are conveyed onto the fourth belt assembly 8, then the clothes feeding driving piece 1103 drives the whole clothes feeding bracket 1106 to move backwards, the clothes supporting hook 1112 horizontally moves to one end of the clothes, then the clothes supporting lifting plate 1107 and the clothes supporting hook 1112 are driven to descend by the lifting plate driving piece 1108, The clothes-holding hook 1112 passes through the lower part of the fourth belt component 8, then the clothes-feeding driving piece 1103 drives the clothes-feeding bracket 1106 to integrally move forward, so that the clothes-holding hook 1112 moves to the lower part of clothes, then the clothes-holding lifting plate 1107 and the clothes-holding hook 1112 are driven to move upwards by the lifting plate driving piece 1108, the clothes are lifted and then conveyed to the bag opening component 9, after the bag opening component 9 opens the packaging bag, the clothes-feeding component 11 feeds the clothes into the bag, the bag moves to the upper part of the fifth belt component 12, the bag is taken off from the clothes-holding hook 1112 by the claw-removing component 13 and is placed on the fifth belt component 12 for conveying, When the bag with the clothes put on is conveyed to the sixth belt assembly 17, the vacuumizing assembly 14 is used for vacuumizing the bag, then the opening of the bag is sealed through the hot-cutting sealing assembly 15, the sealed bag is sent out through the sixth belt assembly 17, and the bag is convenient and quick to package and suitable for the production of continuous production, and compared with the manual bagging efficiency, the bag is greatly improved.

As shown in fig. 7 and 8, a garment pressing plate 1111 is provided above the clothes supporting hook 1112, and a garment pressing plate driving member 1110 is mounted on the garment feeding bracket 1106, and an output end of the garment pressing plate driving member 1110 is connected to the garment pressing plate 1111. Specifically, the platen driver 1110 may be driven by an air cylinder, and after the clothes are lifted by the clothes-holding hook 1112, the platen driver 1110 drives the platen 1111 to press down the clothes, thereby clamping the clothes to prevent the clothes from falling and facilitating the subsequent bagging.

As shown in fig. 2 and 3, the molding assembly 2 includes a molding support 201, a molding driving member 202, a molding bottom plate 203, a molding mounting seat 204, two molding rods 205 and a first bidirectional screw rod 206, the molding support 201 is erected above the first belt assembly 1, the molding driving member 202 is fixedly mounted on the molding support 201, the molding bottom plate 203 is connected to the output end of the molding driving member 202, the two molding rods 205 are slidably disposed on the molding bottom plate 203 through the two molding mounting seats 204, and the two molding rod mounting seats 204 are in threaded connection with the first bidirectional screw rod 206 mounted on the molding bottom plate 203. Specifically, the press bar driving member 202 may be driven by an air cylinder, and when the clothes are sent to the second belt assembly 3, the press bar driving member 202 drives the press bar base 203 to move downwards, so that the two press bars 205 press the clothes, which is convenient for folding and forming the clothes, and the distance between the two press bars 205 can be adjusted by rotating the first bidirectional screw 206, so as to adapt to clothes with different sizes.

As shown in fig. 4, the left and right flap assemblies 4 include a guide rail pad 401, a left mounting plate 404, a left supporting plate 406, a left flap 408, a right mounting plate 402, a right supporting plate 409, and a right flap 410, wherein the left mounting plate 404 and the right mounting plate 402 are slidably disposed on the guide rail pad 401 through a first guide rail 403, the left supporting plate 406 and the right supporting plate 409 are slidably disposed above the left mounting plate 404 and the right mounting plate 402 through guide posts 405, the left flap 408 and the right flap 410 are slidably disposed above the left supporting plate 406 and the right supporting plate 409 through a second guide rail 407, a flap jacking driving member 411 and a flap translation driving member 414 are disposed below the left supporting plate 406 and the right supporting plate 409, the flap jacking driving member 411 is used for driving the left supporting plate 406 and the right supporting plate 409 to lift, the flap translation driving member 414 is used for driving the left flap 408 and the right flap 410 to horizontally move, and the left mounting plate 404 and the right mounting plate 402 are in threaded connection with a second bidirectional screw rod 412 mounted on a frame through screw nuts. Specifically, the left and right flap assemblies 4 are in a bilateral symmetry structure, the flap jacking driving piece 411 and the flap translation driving piece 414 can be driven by air cylinders, wherein the body of the left and right flap translation driving pieces 414 is hinged with the connection hinged bases 413 at the bottoms of the left and right supporting plates, the output ends of the left and right flap translation driving pieces 414 penetrate through the left and right supporting plates and are hinged with the left and right flap 408 and the right flap 410, the left and right supporting plates are driven to lift by the flap jacking driving piece 411, the left and right flap 408 and the right flap 410 are driven to horizontally move towards the middle through the flap translation driving piece 414, the two sides of clothes are folded towards the middle, the structural design is ingenious, the automatic folding efficiency is high, and the initial distance between the left mounting plate 404 and the right mounting plate 402 can be adjusted by rotating the second bidirectional screw rod 412 so as to adapt to clothes with different sizes.

As shown in fig. 5 and 6, the clothes pressing hook assembly 6 includes a clothes pressing fixing plate 601, a third guide rail 602, a clothes pressing hook sliding seat 603, a clothes pressing hook lifting driving member 604, a clothes pressing hook 605 and an opening and closing driving member 606, two clothes pressing hook sliding seats 603 are symmetrically arranged on the clothes pressing fixing plate 601 through the third guide rail 602, an opening and closing driving member 606 for driving the clothes pressing hook sliding seat 603 to slide along the third guide rail 602 is arranged on the clothes pressing fixing plate 601, clothes pressing hook lifting driving members 604 are respectively arranged on the two clothes pressing hook sliding seats 603, and a clothes pressing hook 605 is arranged at an output end of the clothes pressing hook lifting driving member 604. Specifically, the clothes pressing hook lifting driving member 604 and the opening and closing driving member 606 can be driven by an air cylinder, and the folding supporting plate 501 is preset below the third belt assembly 5, when clothes are sent to the upper side of the folding supporting plate 501, the clothes pressing hooks 605 are driven to be pressed down by the clothes pressing hook lifting driving members 604 on two sides, the clothes are pressed down and shaped, and the clothes pressing hook sliding seat 603 is driven by the opening and closing driving members 606 on two sides to move, so that the distance between the clothes pressing hooks 605 on two sides can be adjusted to adapt to clothes with different sizes.

As shown in fig. 5 and 6, the longitudinal flap assembly 7 includes a flap rotating shaft 701, an elastic band 702, flap strips 703 and flap strip driving members 704, a plurality of flap strips 703 are installed on the flap rotating shaft 701 at intervals, the elastic band 702 is connected to the flap strips 703, and an output end of the flap strip driving members 704 is in transmission connection with the flap rotating shaft 701. Specifically, longitudinal flap assemblies 7 are symmetrically arranged on two sides of the folding supporting plate 501, wherein the flap bar driving piece 704 can be driven by a servo motor, and when in longitudinal folding, the flap bar driving piece 704 drives the flap rotating shaft 701 to rotate, and the flap rotating shaft 701 drives the flap bar 703 to lift up from the lower side of the third belt assembly 5, so that clothes on the third belt assembly 5 are folded towards the middle, and the clothes are automatically folded again, so that subsequent bagging is facilitated.

As shown in fig. 9, the bag opening assembly 9 includes a movable plate 901, a bag opening guide rail 902 mounted on the movable plate 901, and a third bidirectional screw rod 904, wherein a left rotary cylinder mounting seat 903 and a right rotary cylinder mounting seat 909 are slidably disposed on the bag opening guide rail 902, a third bidirectional screw rod 904, a left rotary cylinder 905, a bag opening sheet 906, a bag pressing air blowing plate 907, a movable plate driving member 908, a right rotary cylinder mounting seat 909 and a right rotary cylinder 910 are slidably engaged with the bag opening guide rail 902 mounted on the movable plate 901, the left rotary cylinder mounting seat 903 and the right rotary cylinder mounting seat 909 are in threaded connection with the third bidirectional screw rod 904 mounted on the movable plate 901, the bag opening sheet 906 is disposed between the left rotary cylinder 905 and the right rotary cylinder 910, and a bag opening air blowing plate 907 is disposed between the two bag opening sheets 906 and a movable plate driving member 908 is disposed below the movable plate 901. Specifically, the moving plate driving member 908 may be driven by an air cylinder, the bag opening blowing plate 907 is provided with a ventilation hole, when the bag is opened, the moving plate driving member 908 is firstly used to drive the moving plate 901 to move downwards, so that one end of the bag opening blowing plate 907 presses the lower side surface of the bag opening, and as the bag opening is asymmetric, the bag opening is opened by blowing, and then the left rotary air cylinder 905 and the right rotary air cylinder 910 simultaneously drive the bag opening supporting sheet 906 to rotate towards the inside of the bag opening until the bag opening is completely opened. The third bidirectional screw rod 904 can be rotated to conveniently and synchronously adjust the positions of the left rotary cylinder mounting seat 903 and the right rotary cylinder mounting seat 909, so that the initial positions of the bag opening supporting sheets 906 on the left side and the right side can be synchronously adjusted to adapt to bags with different sizes.

As shown in fig. 9, the bag storage bin 10 includes a bag placing fixing plate 1001 and a baffle 1002, a bag opening adjusting shaft 1003 and a fourth bidirectional screw rod 1004 are mounted at the bottom of the bag placing fixing plate 1001, two baffle 1002 are slidably disposed on the bag opening adjusting shaft 1003, and lower ends of the two baffle 1002 are in threaded connection with the fourth bidirectional screw rod 1004 through screw nuts. Specifically, the bag holding plate 1001 and the baffle 1002 are used for storing a plurality of bags, and the distance between the baffle 1002 at two sides can be adjusted by rotating the fourth bidirectional screw 1004 so as to adapt to bags with different sizes.

As shown in fig. 11, the disengaging pawl assembly 13 includes a bag pressing mounting plate 1301 and a bag pressing bottom rod 1304 disposed on the upper and lower sides of the fifth belt assembly 12, a bag pressing cushion block driving member 1302 is mounted on the bag pressing mounting plate 1301, an output end of the bag pressing cushion block driving member 1302 is connected with a bag pressing cushion block 1303, a bag pressing driving member 1305 is mounted on the bag pressing bottom rod 1304, an output end of the bag pressing driving member 1305 is connected with a lifting plate 1306, and a bag pressing cushion block 1307 vertically opposite to the bag pressing cushion block 1303 is disposed on the lifting plate 1306. Specifically, the bag pressing cushion block driving member 1302 and the bag pushing driving member 1305 can be driven by air cylinders, after the clothes are sent into the bag by the clothes sending component 11, the bag pressing cushion block 1303 is driven to be pressed down by the bag pressing cushion block driving member 1302, the bag pushing driving member 1305 drives the bag pushing bottom rod 1304 to push the bag upwards, the bag is clamped, after the clothes sending component 11 is retracted, the bag is placed on the fifth belt component 12 and is conveyed to the vacuumizing hot cutting sealing mechanism, and then vacuumizing and hot cutting sealing operations are carried out.

As shown in fig. 13, the vacuum pumping assembly 14 includes a vacuum pumping lifting driving member 1401, a bidirectional screw module 1402, a left nut seat 1403 and a right nut seat 1406 which are disposed on the bidirectional screw module 1402, and vacuum pumping driving members 1404 are disposed on the left nut seat 1403 and the right nut seat 1406, and vacuum pumping pipes 1405 are mounted at output ends of the vacuum pumping driving members 1404. The bidirectional screw module 1402 includes a fifth bidirectional screw 1407 and a screw driving member 1408 for driving the fifth bidirectional screw 1407 to rotate, the left nut seat 1403 and the right nut seat 1406 are both in threaded connection with the fifth bidirectional screw 1407, a blank pressing driving member 1409 is disposed beside the evacuation tube 1405, and an output end of the blank pressing driving member 1409 is connected with a blank pressing block 1410. Specifically, the evacuation lift driving piece 1401, the evacuation tube driving piece 1404 and the blank pressing driving piece 1409 can be driven by air cylinders, the screw rod driving piece 1408 can be driven by a servo motor, the tail end of the evacuation tube 1405 is a duckbill flat tube, the other end of the evacuation tube is communicated with the evacuation system, when in evacuation, the evacuation tube driving piece 1401 drives the two-way screw rod module 1402 to move downwards so that the tail end of the evacuation tube 1405 is flush with a bag mouth, then the evacuation tube 1405 is driven by the evacuation tube driving piece 1404 to extend into the bag, the blank pressing piece 1410 is driven by the blank pressing driving piece 1409 to move downwards so as to press two sides of the bag mouth, then the evacuation tube 1405 is pumped by the evacuation tube, and the left nut seat 1403 and the right nut seat 1406 can be driven by the two-way screw rod module 1402 to move simultaneously, so that the distance between the two sides of the evacuation tube 1405 can be adjusted to adapt to packaging bags with different opening sizes.

As shown in fig. 12, the hot-cut sealing assembly 15 includes a hot cutter driving member 1501, an upper pressing bar driving member 1502, a hot cutter 1503 and a sealing plate 1504, wherein the output end of the hot cutter driving member 1501 is connected with the hot cutter 1503, the output end of the upper pressing bar driving member 1502 is connected with the sealing plate 1504, a cutter pillow driving member 1505 is arranged below the hot cutter 1503, and the output end of the cutter pillow driving member 1505 is connected with a cutter pillow 1506 which is arranged up and down relative to the hot cutter 1503. Specifically, the hot cutter driving member 1501, the upper pressing bar driving member 1502 and the knife rest driving member 1505 can be driven by air cylinders, when the hot cutting and sealing operation is performed on the bag, the vacuumizing assembly 14 is used for vacuumizing the bag, then the upper pressing bar driving member 1502 is used for driving the sealing plate 1504 to press downwards, the lower end of the sealing plate 1504 is usually provided with a silica gel strip, the bag mouth is favorably pressed tightly, then the hot cutter 1503 is driven to move downwards by the hot cutter driving member 1501, meanwhile, the knife rest driving member 1505 is used for driving the knife rest 1506 to move upwards, and the hot cutter 1503 is matched with the knife rest 1506 to heat-seal the bag mouth.

As further shown in fig. 12, a bag pressing assembly 16 is provided above the sixth belt assembly 17, and the bag pressing assembly 16 includes a bag pressing plate 1602 and a bag pressing plate driving member 1601 for driving the bag pressing plate 1602 to move up and down. Specifically, the bag pressing plate driving unit 1601 may be driven by an air cylinder, and the bag pressing plate driving unit 1601 drives the bag pressing plate 1602 to press down and then to press the bag, thereby effectively preventing the bag from moving when the bag is vacuumized and sealed.

When the clothes are fed onto the second belt assembly 3 according to the first belt assembly 1, the clothes are pressed down through the layering assembly 2, the clothes are folded through the left and right flap assemblies 4, the clothes are conveyed onto the third belt assembly 5 after being folded, the clothes are pressed down through the pressing hook assembly 6, the clothes are folded again through the longitudinal flap assembly 7, the clothes are conveyed onto the fourth belt assembly 8 after being folded, then the clothes feeding driving piece 1103 drives the clothes feeding support 1106 to integrally move backwards, the clothes supporting hooks 1112 are horizontally moved to one end of the clothes, then the clothes supporting lifting plate 1107 and the clothes supporting hooks 1112 are driven to descend through the lifting plate driving piece 1108, the clothes supporting hooks 1112 penetrate the lower portion of the fourth belt assembly 8, the clothes feeding driving piece 1103 drives the clothes supporting lifting plate 1107 and the clothes supporting hooks 1112 to move upwards, the clothes supporting hooks are conveyed to the bag opening assembly 9 after being lifted, the clothes feeding assembly 11 feeds the clothes into the bag after the bag opening assembly 9 is opened, the bag is conveyed into the bag through the bag opening assembly 12, the bag is pulled out of the bag opening assembly 12 through the bag opening assembly, the bag is cut off from the bag opening assembly 12 to the bag opening is quickly, the bag is sealed through the bag opening assembly 17, the bag is conveniently and the bag is conveniently placed on the bag is sealed through the bag opening assembly 17, the bag is conveniently and the bag is sealed through the bag opening assembly 17 is sealed.

The utility model has been further described with reference to specific embodiments, but it should be understood that the detailed description is not to be construed as limiting the spirit and scope of the utility model, but rather as providing those skilled in the art with the benefit of this disclosure with the benefit of their various modifications to the described embodiments.

Claims (10)

1. The utility model provides an automatic folding cover bag vacuum seal equipment of clothing which characterized in that: the automatic clothes pressing machine comprises a frame, and a first belt assembly (1), a second belt assembly (3), a third belt assembly (5), a fourth belt assembly (8), a bag storage bin (10), a fifth belt assembly (12) and a sixth belt assembly (17) which are sequentially arranged on the frame, wherein a layering assembly (2) is arranged above the first belt assembly (1), left and right flap assemblies (4) are arranged on two sides of the second belt assembly (3), a clothes pressing hook assembly (6) and a longitudinal flap assembly (7) are arranged below the third belt assembly (5), a clothes feeding assembly (11) is arranged above the fourth belt assembly (8), a bag opening assembly (9) is arranged between the bag storage bin (10) and the fourth belt assembly (8), a releasing assembly (13) is arranged above the fifth belt assembly (12), a vacuumizing sealing mechanism is arranged above the sixth belt assembly (17), and the vacuumizing sealing mechanism comprises a vacuumizing assembly (14) and a cutting sealing assembly (15); the clothes feeding assembly (11) comprises a clothes feeding guide rail (1101), a clothes feeding synchronous belt (1102), a clothes feeding driving part (1103), a synchronous shaft (1104) and a clothes feeding support (1106), the clothes feeding support (1106) is in sliding fit with the clothes feeding guide rail (1101) through a clothes feeding sliding seat (1105), the output end of the clothes feeding driving part (1103) is in transmission connection with the synchronous shaft (1104), two ends of the synchronous shaft (1104) are provided with the clothes feeding synchronous belt (1102), the clothes feeding sliding seat (1105) is fixedly connected with the clothes feeding synchronous belt (1102), a clothes supporting lifting plate (1107) is arranged on the clothes feeding support (1106) in a sliding mode, the clothes supporting lifting plate (1107) is in threaded connection with a lifting plate driving screw (1109) arranged on the clothes feeding support (1106) through a screw nut, one end of the lifting plate driving screw (1109) is in transmission connection with a lifting plate driving part (1108), and a plurality of clothes supporting hooks (1112) are arranged between the lower ends of the clothes supporting lifting plate (1107).

2. An automatic folding garment bagging vacuum sealing apparatus as claimed in claim 1 wherein: the clothes-holding hook is characterized in that a clothes-pressing plate (1111) is arranged above the clothes-holding hook (1112), a clothes-pressing plate driving piece (1110) is arranged on the clothes-feeding bracket (1106), and the output end of the clothes-pressing plate driving piece (1110) is connected with the clothes-pressing plate (1111).

3. An automatic folding garment bagging vacuum sealing apparatus as claimed in claim 1 wherein: the layering subassembly (2) is including layering support (201), layering drive condition (202), layering bottom plate (203), layering mount pad (204), two layering (205) and first two-way lead screw (206), layering support (201) erect in first belt subassembly (1) top, layering drive condition (202) fixed mounting is on layering support (201), layering bottom plate (203) are connected in the output of layering drive condition (202), two layering (205) are through two layering mount pads (204) slip setting on layering bottom plate (203), and two layering mount pad (204) all with install first two-way lead screw (206) threaded connection on layering bottom plate (203).

4. An automatic folding garment bagging vacuum sealing apparatus as claimed in claim 1 wherein: the left and right flap assembly (4) comprises a guide rail base plate (401), a left mounting plate (404), a left supporting plate (406), a left flap (408) and a right mounting plate (402), a right supporting plate (409) and a right flap (410), wherein the left mounting plate (404) and the right mounting plate (402) are slidably arranged on the guide rail base plate (401) through a first guide rail (403), the left supporting plate (406) and the right flap (409) are slidably arranged above the left mounting plate (404) and the right mounting plate (402) through guide posts (405), the left flap (408) and the right flap (410) are slidably arranged above the left supporting plate (406) and the right supporting plate (409) through second guide rails (407), lifting driving pieces (411) and flap translation driving pieces (414) are respectively arranged below the left supporting plate (406) and the right supporting plate (409), the flap translation driving pieces (414) are used for driving the left flap (408) and the right (410) to horizontally move, and the right supporting plate (410) are respectively slidably arranged above the left supporting plate (406) and the right supporting plate (409) through second guide rails (407) and the right supporting plate (409) to be connected to a screw nut through the second supporting plate (402).

5. An automatic folding garment bagging vacuum sealing apparatus as claimed in claim 1 wherein: the clothes pressing hook assembly (6) comprises a clothes pressing fixing plate (601), a third guide rail (602), clothes pressing hook sliding seats (603), clothes pressing hook lifting driving pieces (604), clothes pressing hooks (605) and opening and closing driving pieces (606), two clothes pressing hook sliding seats (603) are symmetrically arranged on the clothes pressing fixing plate (601) through the third guide rail (602), opening and closing driving pieces (606) used for driving the clothes pressing hook sliding seats (603) to slide along the third guide rail (602) are arranged on the clothes pressing fixing plate (601), clothes pressing hook lifting driving pieces (604) are respectively arranged on the two clothes pressing hook sliding seats (603), and a clothes pressing hook (605) is arranged at the output end of each clothes pressing hook lifting driving piece (604).

6. An automatic folding garment bagging vacuum sealing apparatus as claimed in claim 1 wherein: the longitudinal flap assembly (7) comprises a flap rotating shaft (701), an elastic band (702), flap strips (703) and flap strip driving pieces (704), wherein a plurality of flap strips (703) are arranged on the flap rotating shaft (701) at intervals, the flap strips (703) are connected with the elastic band (702), and the output end of the flap strip driving pieces (704) is in transmission connection with the flap rotating shaft (701).

7. An automatic folding garment bagging vacuum sealing apparatus as claimed in claim 1 wherein: the bag opening assembly (9) comprises a movable plate (901) and a bag opening guide rail (902) and a third bidirectional screw rod (904) which are arranged on the movable plate (901), a left rotary cylinder mounting seat (903) and a right rotary cylinder mounting seat (909) are arranged on the bag opening guide rail (902) in a sliding mode, the third bidirectional screw rod (904), a left rotary cylinder (905), a bag opening supporting piece (906), a bag pressing blowing plate (907), a movable plate driving piece (908), a right rotary cylinder mounting seat (909) and a right rotary cylinder (910), the left rotary cylinder mounting seat (903) and the right rotary cylinder mounting seat (909) are in sliding fit with the bag opening guide rail (902) arranged on the movable plate (901), the left rotary cylinder mounting seat (903) and the right rotary cylinder mounting seat (909) are in threaded connection with the third bidirectional screw rod (904) arranged on the movable plate (901), the bag opening supporting piece (906) is arranged at the output end of the left rotary cylinder (905), a bag opening supporting piece (906) is arranged between the two bag opening supporting pieces (908), and the movable plate (908) is arranged below the movable plate (908).

8. An automatic folding garment bagging vacuum sealing apparatus as claimed in claim 1 wherein: the claw removing assembly (13) comprises a bag pressing mounting plate (1301) and a bag jacking bottom rod (1304) which are arranged on the upper side and the lower side of the fifth belt assembly (12), a bag pressing cushion block driving piece (1302) is arranged on the bag pressing mounting plate (1301), the output end of the bag pressing cushion block driving piece (1302) is connected with a bag pressing cushion block (1303), a bag jacking driving piece (1305) is arranged on the bag jacking bottom rod (1304), the output end of the bag jacking driving piece (1305) is connected with a jacking plate (1306), and a bag jacking cushion block (1307) which is opposite to the bag pressing cushion block (1303) up and down is arranged on the jacking plate (1306).

9. An automatic folding garment bagging vacuum sealing apparatus as claimed in claim 1 wherein: the vacuumizing assembly (14) comprises a vacuumizing lifting driving piece (1401), a bidirectional screw rod module (1402) and a left nut seat (1403) and a right nut seat (1406) which are arranged on the bidirectional screw rod module (1402), wherein vacuumizing driving pieces (1404) are arranged on the left nut seat (1403) and the right nut seat (1406), and vacuumizing tubes (1405) are arranged at the output ends of the vacuumizing driving pieces (1404); the bidirectional screw rod module (1402) comprises a fifth bidirectional screw rod (1407) and a screw rod driving piece (1408) for driving the fifth bidirectional screw rod (1407) to rotate, the left nut seat (1403) and the right nut seat (1406) are in threaded connection with the fifth bidirectional screw rod (1407), a blank pressing driving piece (1409) is arranged at the side of the vacuumizing tube (1405), and the output end of the blank pressing driving piece (1409) is connected with a blank pressing block (1410).

10. An automatic folding garment bagging vacuum sealing apparatus as claimed in claim 1 wherein: and a bag pressing assembly (16) is arranged above the sixth belt assembly (17), and the bag pressing assembly (16) comprises a bag pressing plate (1602) and a bag pressing plate driving piece (1601) for driving the bag pressing plate (1602) to lift.