阅读说明：本技术 一种服装加工工艺 (Garment processing technology ) 是由 于宁 于 2020-07-22 设计创作，主要内容包括：本发明涉及一种服装加工工艺,其包括主体台、设于主体台上表面的两块相平行的竖板、开设于主体台上表面且位于两块竖板之间的吸附盒槽、设于吸附盒槽之中并进行传动的下传动带、设于两块竖板之间且传动方向平行于下传动带的上传动带、设于吸附盒槽之中且上表面和下传动带的上表面相齐平的下吸附盒、开设于下吸附盒上表面并连通至下吸附盒内部的数个下吸附孔、设于两块竖板之间且下表面和上传动带下表面相齐平的上吸附盒、开设于上吸附盒下表面且连通于上吸附盒内部的数个上吸附孔、设于上吸附盒和下吸附盒联通处且为上吸附盒和下吸附盒中创造负压环境的负压装置,具备在服装熨烫之前先进行线头除去,较为方便的效果。(The invention relates to a garment processing technology, which comprises a main body platform, two parallel vertical plates arranged on the upper surface of the main body platform, an adsorption box groove which is arranged on the upper surface of the main body platform and is positioned between the two vertical plates, a lower transmission belt which is arranged in the adsorption box groove and is used for transmission, an upper transmission belt which is arranged between the two vertical plates and has a transmission direction parallel to the lower transmission belt, a lower adsorption box which is arranged in the adsorption box groove and has an upper surface which is flush with the upper surface of the lower transmission belt, a plurality of lower adsorption holes which are arranged on the upper surface of the lower adsorption box and are communicated with the interior of the lower adsorption box, an upper adsorption box which is arranged between the two vertical plates and has a lower surface which is flush with the lower surface of the upper transmission belt, a plurality of upper adsorption holes which are arranged on the lower surface of the upper adsorption box and are communicated with the interior of the upper adsorption box, and a negative pressure device which is arranged at, the method has the advantages that the thread ends are removed before ironing the clothes, and the method is convenient.)

1. A garment processing technology is characterized in that: the method comprises the following steps:

firstly, ironing the garment fabric before delivery;

step two, cutting the garment fabric into garment pieces with certain specifications;

step three, sewing the garment pieces obtained in the step two according to the corresponding connection relation, so that the garment is formed preliminarily;

fourthly, removing the thread ends on the surface of the sewn and formed garment through thread end removing equipment, and then ironing the garment after delivery;

wherein, the thread end removing device in the four steps comprises a main body platform (1), two vertical plates (3) which are fixedly connected with the upper surface of the main body platform (1) and are parallel to each other, an adsorption box groove (2) which is arranged on the upper surface of the main body platform (1) and is positioned between the two vertical plates (3), a lower transmission belt (4) which is arranged in the adsorption box groove (2) and is used for transmission, an upper transmission belt (5) which is arranged between the two vertical plates (3) and has a transmission direction parallel to the lower transmission belt (4), a transmission belt power device which is arranged on the main body platform (1) and drives the upper transmission belt (5) and the lower transmission belt (4) to transmit, a lower adsorption box (51) which is arranged in the adsorption box groove (2) and has an upper surface which is flush with the upper surface of the lower transmission belt (4), a plurality of lower adsorption holes (52) which are arranged on the upper surface of the lower adsorption box (51) and are, The vacuum adsorption device comprises an upper adsorption box (53) which is arranged between two vertical plates (3) and has the lower surface flush with the lower surface of an upper transmission belt (5), a plurality of upper adsorption holes (54) which are arranged on the lower surface of the upper adsorption box (53) and communicated with the inner part of the upper adsorption box (53), and a negative pressure device which is arranged at the communicated part of the upper adsorption box (53) and a lower adsorption box (51) and creates a negative pressure environment for the inner parts of the upper adsorption box (53) and the lower adsorption box (51).

2. The garment processing process according to claim 1, wherein: go up drive belt (5) and set up two sets ofly along self length direction looks dislocation, set up two and another group drive belt (5) along self width direction looks dislocation between two risers (3) on a set of drive belt (5) set up one, the last drive belt (5) of a set of two are close to respectively in self width direction and go up drive belt (5) length direction both sides and two intervals between riser (3) equal on two risers (3) and another group, lower drive belt (4) set up two sets ofly and go up drive belt (5) and lower drive belt (4) and align along vertical direction equally, go up the produced space of arranging of drive belt (5) between two risers (3) and correspond the setting up of absorption box (53), lower absorption box (51) correspond the produced space of arranging of two sets of lower drive belt (4) among absorption box groove (2) and correspond the setting.

3. A garment processing process according to claim 2, wherein: the upper adsorption holes (54) are arranged along the width direction of the upper transmission belt (5) in a staggered mode, and each lower adsorption hole (52) is aligned to each upper adsorption hole (54) in a staggered mode along the vertical direction.

4. A garment processing technology according to claim 3, characterized in that: negative pressure device adsorbs box (51) and last adsorption box (53) UNICOM's inside negative-pressure air fan (56), locate wire end box (55) inner wall and to the wire end filter screen (57) that block, locate wire end box (55) bottom department and take out the wire end so that the wire end processing mechanism of centralized processing including communicating in wire end box (55) of adsorbing box (51) and last adsorption box (53) UNICOM department down, air intake intercommunication in wire end box (55) keep away from, filter screen (57) are the slope and filter screen (57) are close to the one side of adsorbing box (51) and last adsorption box (53) UNICOM department down and are the upper end.

5. The garment processing process according to claim 4, wherein: the transmission belt power device comprises two entrance side upper transmission belt rollers (58) with the length directions parallel to the width direction of an upper transmission belt (5) and aligned along the width direction of a main body platform (1), two entrance side upper transmission belt rollers (58) with the length directions parallel to the width direction of the upper transmission belt (5) and connected to the middle upper transmission belt roller (22) of a vertical plate (3) in a rotating mode, two entrance side lower transmission belt rollers (59) with the length directions parallel to the width direction of a lower transmission belt (4) and aligned along the width direction of the main body platform (1), two entrance side lower transmission belt rollers (59) with the length directions parallel to the width direction of the lower transmission belt (4) and connected to the middle lower transmission belt roller (24) of the inner wall of an adsorption box groove (2) in a rotating mode, and a lower transmission belt roller (25) with the length directions parallel to the width direction of the lower transmission belt (4) and connected to the lower adsorption box (51) in a rotating mode, Locate main part platform (1) and drive middle upper drive belt roller (22) and middle lower drive belt roller (24) and carry out pivoted roller slewing mechanism, it connects in last absorption box (53) and riser (3) to go into side upper drive belt roller (58) both ends respectively to rotate, it connects in lower absorption box (51) and absorption box groove (2) to go into side lower drive belt roller (59) both ends respectively to rotate, two upper drive belts (5) of the same group are connected in two entering side upper drive belt roller (58) and middle upper drive belt roller (22) central point both sides respectively in the transmission, one upper drive belt (5) of the same group is connected in middle upper drive belt roller (22) intermediate position department and go out side upper drive belt roller (23), two lower drive belt (4) of the same group are connected in two entering side lower drive belt roller (59) and middle lower drive belt roller (24) central point both sides respectively in the transmission, one lower drive belt (4) of the same group is connected in middle lower drive belt roller (24) intermediate position department and the transmission A lower exit side drive belt roller (25).

6. A garment processing technology according to claim 5, wherein: the roller rotating mechanism comprises a lower roller grooved wheel (41) which is coaxially and fixedly connected to one end, exposed out of the main body table (1), of the middle lower transmission belt roller (24), an upper roller grooved wheel (42) which is coaxially and fixedly connected to one end, exposed out of the vertical plate (3), of the middle upper transmission belt roller (22), a roller motor (43) arranged on the main body table (1), a motor grooved wheel (44) which is coaxially and fixedly connected to an output shaft of the roller motor (43), and a transmission belt (45) which is in transmission connection with the motor grooved wheel (44), the upper roller grooved wheel (42) and the lower roller grooved wheel (41.

7. The garment processing process according to claim 6, wherein: close to the clothing and get into one side go up adsorption box (53) outer wall intercommunication have and lie in and get into the last drive belt adsorption tube (46) of the last drive belt (5) upper surface of one side close to the clothing, go up drive belt adsorption tube (46) opening and follow the moving direction of last drive belt (5) upper surface towards the air current direction of going up drive belt (5) upper surface and going up drive belt adsorption tube (46) opening part, the lower adsorption box (51) outer wall intercommunication that is close to the clothing and gets into one side has and lies in the lower drive belt adsorption tube (47) that gets into the lower drive belt (4) lower surface of one side close to the clothing, the air current direction that lower drive belt adsorption tube (47) opening part opened part and follows the moving direction of lower drive belt (4) lower surface towards lower drive belt (4) lower surface.

8. The garment processing process according to claim 7, wherein: riser (3) are pegged graft and sliding connection in main part platform (1) upper surface along vertical direction, the equal fixedly connected with riser piece (48) of each riser (3) length direction both ends upper portion department, the equal fixedly connected with cylinder seat piece (49) in both ends of the vertical outer wall of main part platform (1) length direction, fixed surface is connected with power pole fixed connection on cylinder seat piece (49) and is vertical riser cylinder (31) in riser piece (48) lower surface and power pole, go up to adsorb box (53) and lower absorption box (51) and be linked together through the hose.

9. A garment processing process according to claim 8, wherein: one end of each upper adsorption box (53) close to the upper transmission belt (5) close to the upper transmission belt is fixedly connected with an upper adaptation block (32), the lower surface of the upper adaptation block (32) is flush with the lower surface of the upper transmission belt (5), the vertical side surface of one end of the upper adaptation block (32) facing the upper transmission belt (5) close to the upper transmission belt is provided with an upper arc groove (33) for the end part of the upper transmission belt (5) in the length direction to extend into, one end of each lower adsorption box (51) close to the lower transmission belt (4) close to the lower transmission belt is fixedly connected with a lower adaptation block (34), the upper surface of the lower adaptation block (34) is flush with the upper surface of the lower transmission belt (4), the vertical side of lower adaptation piece (34) orientation lower drive belt (4) length direction one end that is close is seted up and is supplied lower circular arc groove (35) that drive belt (4) length direction tip stretched into down.

10. A garment processing process according to claim 9, wherein: the thread end processing mechanism comprises a taking-out box groove (36) which is formed in the outer wall of the bottom of the thread end box (55) and is formed in the wall thickness of the thread end box (55), a taking-out box (37) which is connected to the taking-out box groove (36) in a sliding mode along the direction of the taking-out box groove (36), a mounting block groove (38) which is formed in the opening of the taking-out box groove (36), a mounting block (39) which is fixedly connected to the taking-out box (37) and exposes one end of the thread end box (55) and is inserted into the mounting block groove (38), and a mounting screw (21) which penetrates through the mounting block (39) and is connected to the bottom surface of the mounting block groove (38) in a threaded mode, wherein the upper surface of the taking-out box (.

Technical Field

The invention relates to the technical field of assembly type building construction equipment, in particular to a garment processing technology.

Background

The garment processing mainly comprises three steps of cutting, sewing and ironing, wherein the cutting is to cut the garment fabric into a required shape, the sewing is to connect the parts connected with the cut fabric through silk threads, so that the fabric is spliced to form the garment, and the ironing is to perform high-temperature ironing on the garment with folds, so that the surface of the garment is smooth.

In view of the above-mentioned related technologies, the inventor believes that there is a defect that the garment is generally directly ironed after being sewn and formed, and the garment is generally stuck with a thread end on the surface after being cut, and the direct ironing of the garment easily strengthens the adhesion between the thread end and the garment, so that the thread end is difficult to be removed.

Disclosure of Invention

In order to conveniently remove the thread ends on the surface of the garment, the application provides a garment processing technology.

The garment processing technology provided by the application adopts the following technical scheme:

a garment processing technology comprises the following steps:

firstly, ironing the garment fabric before delivery;

step two, cutting the garment fabric into garment pieces with certain specifications;

step three, sewing the garment pieces obtained in the step two according to the corresponding connection relation, so that the garment is formed preliminarily;

fourthly, removing the thread ends on the surface of the sewn and formed garment through thread end removing equipment, and then ironing the garment after delivery;

wherein, the thread end removing device in the fourth step comprises a main body platform, two vertical plates which are fixedly connected with the upper surface of the main body platform and are parallel, an adsorption box groove which is arranged on the upper surface of the main body platform and is positioned between the two vertical plates, a lower transmission belt which is arranged in the adsorption box groove and is driven, an upper transmission belt which is arranged between the two vertical plates and is parallel to the lower transmission belt in the transmission direction, a transmission belt power device which is arranged on the main body platform and drives the upper transmission belt and the lower transmission belt to transmit, a lower adsorption box which is arranged in the adsorption box groove and is flush with the upper surface of the lower transmission belt, a plurality of lower adsorption holes which are arranged on the upper surface of the lower adsorption box and is communicated with the interior of the lower adsorption box, an upper adsorption box which is arranged between the two vertical plates and is flush with the lower surface of the upper transmission belt, a plurality of upper adsorption holes which are arranged on the lower surface of the upper adsorption box and is communicated with the interior of the upper adsorption box, and a plurality of upper adsorption A negative pressure device.

Through adopting above-mentioned technical scheme, the clothing of making up the completion gets into down between drive belt and the last drive belt, convey along last drive belt length direction, and receive the negative pressure adsorption who comes from adsorption hole and lower adsorption hole between last adsorption tank and the lower adsorption tank, detach the end of a thread that clothing surface has, make when postpartum ironing afterwards, can not have more end of a thread to stay on the clothing surface, it is stronger to avoid easy and the surperficial cohesiveness of clothing at the process of ironing the end of a thread, make the end of a thread more difficult to take off, it helps the surface fabric level and smooth to carry out antenatal ironing to garment materials simultaneously, make follow-up to garment materials tailor and sewing process more convenient.

Preferably, it sets up two sets ofly to go up the drive belt along self length direction looks dislocation, a set of drive belt of going up sets up two and another group drive belt along self width direction looks dislocation between two risers, a set of two go up the drive belt and be close to respectively along self width direction and go up drive belt length direction both sides and two intervals between the riser equal on two risers and another group, the lower drive belt sets up two sets of and goes up the drive belt and align along vertical direction with the lower drive belt equally, go up the produced space of arranging of the corresponding two sets of drive belts of going up of absorption box between two risers and correspond the setting, the produced space of arranging of the corresponding two sets of lower drive belts of absorption box among the absorption box groove corresponds the setting down.

Through adopting above-mentioned technical scheme for when the last drive belt cooperatees with lower drive belt and carry out corresponding conveying to the clothing, go up and adsorb box and lower absorption box and can carry out a more comprehensive end of a thread absorption and get rid of work to the surface of clothing through the mode of dislocation set.

Preferably, the upper adsorption holes are arranged along the width direction of the upper transmission belt in a staggered manner, and each lower adsorption hole is aligned to each upper adsorption hole in a staggered manner along the vertical direction.

By adopting the technical scheme, the staggered upper adsorption holes and the staggered lower adsorption holes can carry out more comprehensive thread end outgoing work on the surface of the garment, the possibility that thread ends exist on the surface of the garment is reduced as far as possible, and meanwhile, the upper adsorption holes and the lower adsorption holes are aligned, so that the probability that one part of the garment is sucked into the upper adsorption holes and the lower adsorption holes when the negative pressure in the upper adsorption holes and the lower adsorption holes is increased can be reduced.

Preferably, the negative pressure device comprises a thread head box, an air inlet, a negative pressure fan, a filter screen, a thread head processing mechanism and a filter screen, wherein the thread head box is communicated with the lower adsorption box and the upper adsorption box communicated part, the air inlet is communicated with the negative pressure fan, the negative pressure fan is far away from the thread head box, the negative pressure fan is arranged inside the lower adsorption box and the upper adsorption box communicated part, the filter screen is arranged on the inner wall of the thread head box and used for blocking the thread head, the thread head processing mechanism is arranged at the bottom of the thread head box and used for taking out the thread head so as to be subjected to centralized processing.

Through adopting above-mentioned technical scheme, the effect of induced drafting through negative-pressure air fan makes the end of a thread get into to the end of a thread box to receive blockking of filter screen, concentrate in the end of a thread box, the slope of filter screen is arranged simultaneously and is made the end of a thread can be at negative-pressure air fan stop work time, the end of a thread font drops, and the end of a thread is difficult for piling up always on the filter screen surface, influences negative-pressure air fan's normal work.

Preferably, the transmission belt power device comprises two entrance side upper transmission belt rollers with length directions parallel to the width direction of the upper transmission belt and aligned along the width direction of the main body platform, a middle upper transmission belt roller with length directions parallel to the width direction of the upper transmission belt and rotatably connected to the vertical plate, an exit side upper transmission belt roller with length directions parallel to the width direction of the upper transmission belt and rotatably connected to the upper adsorption box, two entrance side lower transmission belt rollers with length directions parallel to the width direction of the lower transmission belt and aligned along the width direction of the main body platform, a middle lower transmission belt roller with length directions parallel to the width direction of the lower transmission belt and rotatably connected to the inner wall of the adsorption box groove, an exit side lower transmission belt roller with length directions parallel to the width direction of the lower transmission belt and rotatably connected to the lower adsorption box, and a roller rotating mechanism arranged on the main body platform and driving the middle upper transmission belt roller and the middle lower transmission belt roller to rotate, the two ends of the upper driving belt roller of the inlet side are respectively and rotatably connected to the upper adsorption box and the vertical plate, the two ends of the lower driving belt roller of the inlet side are respectively and rotatably connected to the lower adsorption box and the adsorption box groove, the two upper driving belts of the same group are respectively and drivingly connected to the two upper driving belt rollers of the inlet side and the two sides of the central point of the upper driving belt roller in the middle, the upper driving belt of the same group is drivingly connected to the middle position of the upper driving belt roller in the middle and the upper driving belt roller of the outlet side, the two lower driving belts of the same group are respectively and drivingly connected to the two lower driving belt rollers of the inlet side and the two sides of the central point of the lower driving belt roller in the middle, and the lower driving belt of the same group is.

Through adopting above-mentioned technical scheme for the transmission speed of two sets of upward transmission belts and the transmission speed of two sets of lower drive belts compare for unanimous, and two sets of similar one ends of upward transmission belts and the similar one end of two sets of lower drive belts all drive through same root upper drive belt roller and same root lower drive belt roller simultaneously, so that the clothing can convey comparatively steadily between two sets of upward transmission belts and two sets of lower drive belts.

Preferably, the roller rotating mechanism comprises a lower roller sheave coaxially and fixedly connected to one end of the middle lower transmission belt roller exposed out of the main body table, an upper roller sheave coaxially and fixedly connected to one end of the middle upper transmission belt roller exposed out of the vertical plate, a roller motor arranged on the main body table, a motor sheave coaxially and fixedly connected to an output shaft of the roller motor, and a transmission belt in transmission connection with the motor sheave, the upper roller sheave and the lower roller sheave.

Through adopting above-mentioned technical scheme, drive driving belt through the roller motor and carry out the transmission, drive the drive belt roller and rotate respectively with lower drive belt roller then for the transmission speed of lower drive belt and last drive belt is compared for unanimity, makes the clothing can convey comparatively steadily, is difficult for receiving in the data send process and drags.

Preferably, the outer wall of the upper adsorption box close to the side where the garment enters is communicated with an upper transmission belt adsorption tube positioned on the upper surface of the upper transmission belt close to the side where the garment enters, the opening of the upper transmission belt adsorption tube faces the upper surface of the upper transmission belt, the airflow direction at the opening of the upper transmission belt adsorption tube conforms to the moving direction of the upper surface of the upper transmission belt, the outer wall of the lower adsorption box close to the side where the garment enters is communicated with a lower transmission belt adsorption tube positioned on the lower surface of the lower transmission belt close to the side where the garment enters, the opening of the lower transmission belt adsorption tube faces the lower surface of the lower transmission belt, and the airflow direction at the opening of the lower transmission belt adsorption tube conforms to the moving direction of the lower surface of the lower transmission belt.

By adopting the technical scheme, when the clothes close to the upper transmission belt and the lower transmission belt on one side of the clothes entering are attached to the surface of the clothes to be transmitted, the surfaces of the clothes which are not processed by the upper adsorption box and the lower adsorption box are easy to stick thread ends on the surfaces of the upper transmission belt and the lower transmission belt, and then the thread ends which are stuck to the surfaces of the upper transmission belt and the lower transmission belt can be sucked away by respectively adsorbing the upper surface of the upper transmission belt and the lower surface of the lower transmission belt through the upper transmission belt adsorption pipe and the lower transmission adsorption pipe.

Preferably, the risers are inserted and sliding connection is in main part bench surface along vertical direction, the equal fixedly connected with vertical plate piece in each riser length direction both ends upper portion department, the equal fixedly connected with cylinder block in both ends of the vertical outer wall of main part bench length direction, cylinder block upper surface fixedly connected with power pole fixed connection is in riser piece lower surface and power pole and is vertical riser cylinder, goes up to adsorb the box and is linked together through the hose with lower absorption box.

Through adopting above-mentioned technical scheme, the riser cylinder can drive the riser and remove along vertical direction to change the transmission belt, also can adjust according to the clothing of different thickness simultaneously, make when last drive belt and lower drive belt drive clothing remove, the clothing can not receive too big pressure.

Preferably, each go up adsorb the box and be close to the equal fixedly connected with of length direction one end of the last drive belt close, go up adaptation piece lower surface and go up the drive belt lower surface and flush mutually, go up the vertical side of adaptation piece orientation the last drive belt length direction one end close and set up the last circular arc groove that confession drive belt length direction tip stretched into, adsorb the box under each and be close to adaptation piece under the equal fixedly connected with of length direction one end of the lower drive belt close, lower adaptation piece upper surface flushes with lower drive belt upper surface mutually, the vertical side of lower adaptation piece orientation the lower drive belt length direction one end close offers the lower circular arc groove that confession lower drive belt length direction tip stretched into.

By adopting the technical scheme, the clothes can be more stably driven between the lower adsorption box and the lower transmission belt in the driving process, and the phenomenon that the clothes are easily wrinkled in the driving process is avoided.

Preferably, the thread end processing mechanism comprises a taking-out box groove which is arranged on the outer wall of the bottom of the thread end box and is arranged in the wall thickness of the thread end box, a taking-out box which is connected with the taking-out box groove in a sliding mode along the taking-out box groove, a mounting block groove which is arranged at the opening of the taking-out box groove, a mounting block which is fixedly connected to one end of the taking-out box, exposed out of the thread end box, and is inserted into the mounting block groove, and a mounting screw which is arranged on the mounting block in a penetrating mode and is in threaded connection with the bottom surface of the mounting block groove, wherein.

Through adopting above-mentioned technical scheme, can will install the screw and unscrew and take out the box when shutting down to carry out centralized processing with the end of a thread etc. of taking out in the box, the setting of taking out the box groove simultaneously makes the end of a thread be difficult for dropping at the upper surface of taking out the box, avoids when taking out the box, has more end of a thread to drop easily and adsorbs the bottom half of the case, and the clearance is inconvenient.

In summary, the invention includes at least one of the following beneficial technical effects:

the sewed clothes enter between the lower transmission belt and the upper transmission belt, are conveyed along the length direction of the upper transmission belt, pass through the space between the upper adsorption box and the lower adsorption box and are adsorbed by negative pressure from the upper adsorption hole and the lower adsorption hole, and thread ends on the surface of the clothes are removed, so that when the clothes are ironed in a post production process, more thread ends cannot be left on the surface of the clothes, the phenomenon that the thread ends are easy to adhere to the surface of the clothes in the ironing process is avoided, the thread ends are difficult to take down, and meanwhile, the fabric is ironed before the production to be conductive to flattening the fabric of the clothes, so that the subsequent cutting and sewing treatment of the fabric of the clothes are more convenient;

can will install the screw when shutting down and take out the box to the end of a thread etc. that will take out in the box carry out centralized processing, the setting of taking out the box groove simultaneously makes the end of a thread be difficult for dropping at the upper surface of taking out the box, avoids when taking out and take out the box, has more end of a thread to drop easily and adsorbs the box bottom, and the clearance is inconvenient.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present invention;

FIG. 2 is a schematic view of the structure within two risers being moved vertically upward to reveal the upper surface of the body deck;

FIG. 3 is a schematic view of the internal structure of the main body table in partial section at the entrance side upper belt roller and the entrance side lower belt roller in the lengthwise direction;

FIG. 4 is a schematic view of a partially cut-away internal structure of the main body table at the middle upper and lower belt rollers in the length direction;

FIG. 5 is an enlarged view at A in FIG. 4;

FIG. 6 is a schematic cross-sectional view of the inside structure of the end box on the side close to the negative pressure fan;

fig. 7 is an enlarged view at B in fig. 2.

In the figure, 1, a main body table; 2. an adsorption box groove; 21. mounting screws; 22. a middle upper driving belt roller; 23. a driving belt roller is arranged on the outlet side; 24. a middle lower drive belt roller; 25. a lower belt roller at the outlet side; 26. an adsorption port of the upper transmission belt; 27. a lower belt suction port; 3. a vertical plate; 31. a vertical plate cylinder; 32. an upper adaptation block; 33. an upper arc groove; 34. a lower adaptation block; 35. a lower arc groove; 36. taking out the box groove; 37. taking out the box; 38. mounting block grooves; 39. mounting blocks; 4. a lower transmission belt; 41. a lower roller grooved pulley; 42. an upper roller sheave; 43. a roller motor; 44. a motor sheave; 45. a drive belt; 46. an adsorption tube of the upper transmission belt; 47. a lower belt sorbent tube; 48. a vertical plate block; 49. a cylinder block; 5. uploading a transmission belt; 51. a lower adsorption box; 52. a lower adsorption hole; 53. an upper adsorption box; 54. an upper adsorption hole; 55. a wire head box; 56. a negative pressure fan; 57. filtering with a screen; 58. a belt roller on the entry side; 59. entering the side down belt roll.

Detailed Description

The present application will now be described in further detail with reference to the accompanying drawings.

The embodiment of the application discloses a garment processing technology, which comprises the following steps:

firstly, ironing the garment fabric before delivery;

step two, cutting the garment fabric into garment pieces with certain specifications;

step three, sewing the garment pieces obtained in the step two according to the corresponding connection relation, so that the garment is formed preliminarily;

fourthly, removing the thread ends on the surface of the sewn and formed garment through thread end removing equipment, and then ironing the garment after delivery;

the thread end removing device described in the fourth step, referring to fig. 1 and fig. 2, comprises a main body table 1, the clothes moving direction is parallel to the length direction of the main body table 1, the two side edges of the length direction of the upper surface of the main body table 1 are inserted and connected with vertical plates 3 in a sliding way along the vertical direction, the length direction of the vertical plates 3 is parallel to the length direction of the main body table 1, an adsorption box groove 2 is arranged on the upper surface of the main body table 1 between the two vertical plates 3, the length direction of the adsorption box groove 2 is parallel to the length direction of the main body table 1, two groups of lower transmission belts 4 are arranged in the adsorption box groove 2, the length direction of the lower transmission belts 4 is parallel to the length direction of the main body table 1, the two groups of lower transmission belts 4 are arranged in a staggered way along the length direction of the main body table 1, lower adsorption boxes 51 are arranged in gaps generated by the arrangement of the two groups, the upper surface of the lower adsorption box 51 is uniformly penetrated and provided with a plurality of lower adsorption holes 52 communicated with the interior of the lower adsorption box 51 along the vertical direction, the upper surface of the lower adsorption box 51 is flush with the upper surface of the lower transmission belt 4, as shown in a combined figure 3, two groups of upper transmission belts 5 are arranged between two vertical plates 3, the length direction of the upper transmission belts 5 is parallel to the length direction of the main body platform 1, the two groups of upper transmission belts 5 are respectively aligned with the two groups of lower transmission belts 4 along the vertical direction, the clothes are clamped and transmitted by the lower surfaces of the upper transmission belts 5 and the upper surfaces of the lower transmission belts 4 aligned in the vertical direction, an upper adsorption box 53 is arranged in a gap generated by the arrangement of the two groups of upper transmission belts 5 between the two vertical plates 3, the length direction of the upper adsorption box 53 is parallel to the length direction of the main body platform 1, the lower surface of the upper adsorption box 53 is uniformly penetrated and provided with a plurality of upper adsorption holes 54, the lower surface of the upper adsorption box 53 is flush with the lower surface of the upper transmission belt 5, the thread ends on the surface of the clothes are adsorbed and removed through the upper adsorption hole 54 and the lower adsorption hole 52, the main body table 1 is provided with a transmission belt power device for driving the upper transmission belt 5 and the lower transmission belt 4 to transmit, the upper adsorption box 53 and the lower adsorption box 51 are communicated through hoses outside the main body table 1 and the vertical plate 3, and a negative pressure device for creating a negative pressure environment inside the upper adsorption box 53 and the lower adsorption box 51 is arranged at the communication position of the upper adsorption box 53 and the lower adsorption box 51.

Referring to fig. 2 and 3, the two upper belts 5 of the same group close to the clothes inlet side are respectively close to two near vertical side surfaces of two vertical plates 3, the two lower belts 4 of the same group close to the clothes inlet side are respectively close to two length direction vertical inner walls of the adsorption box groove 2, the two length direction vertical side surfaces of one upper belt 5 of one group close to the clothes outlet side are respectively equal to the distance between the two vertical plates 3, the two length direction vertical side surfaces of one lower belt 4 of one group close to the clothes outlet side are respectively equal to the distance between the two length direction vertical inner walls of the adsorption box groove 2, the upper adsorption holes 54 are arranged in a staggered manner along the width direction of the upper belt 5, no gap exists between the horizontal projections of the vertical side surfaces of the main body platform 1 in the width direction, the lower adsorption holes 52 are arranged in a staggered manner along the width direction of the lower belt 4, all the lower suction holes 52 do not have a gap between horizontal projections of the vertical side surfaces in the width direction of the main body table 1, and each lower suction hole 52 and each upper suction hole 54 are aligned one by one in the vertical direction.

Referring to fig. 4 and 5, go up and adsorb box 53 towards on each 5 length direction tip departments equal fixedly connected with of drive belt go up adaptation piece 32, it flushes mutually with last absorption box 53 lower surface to go up adaptation piece 32, it offers the last circular arc groove 33 that supplies corresponding last drive belt 5 to stretch into to go up the vertical side of 5 length direction one ends of drive belt on towards, lower absorption box 51 is towards each 4 length direction tip departments equal fixedly connected with of lower drive belt down adaptation piece 34, lower adaptation piece 34 upper surface flushes mutually with lower absorption box 51 upper surface, lower adaptation piece 34 is offered towards the vertical side of 4 length direction one ends of lower drive belt and is supplied corresponding lower circular arc groove 35 that lower drive belt 4 stretches into.

Referring to fig. 3 and 4, the driving belt power device comprises two entrance side upper driving belt rollers 58 which are correspondingly and respectively connected with two vertical plates 3 and close to the clothes entrance side, the axes of the two entrance side upper driving belt rollers 58 are the same, the length direction of the entrance side upper driving belt roller 58 is parallel to the width direction of the upper driving belt 5, two ends of the entrance side upper driving belt roller 58 are respectively and rotatably connected with the vertical plates 3 and the close vertical side surfaces of the upper adsorption box 53, the middle position of the length direction of the two vertical plates 3 is rotatably connected with a middle upper driving belt roller 22, the length direction of the middle upper driving belt roller 22 is parallel to the width direction of the upper driving belt 5, the two upper driving belts 5 in the same group are respectively and rotatably connected with two sides of the central points of the two entrance side upper driving belt rollers 58 and the middle upper driving belt roller 22, an exit side upper driving belt roller 23 with the length direction parallel to the width direction of the upper driving belt 5 is rotatably connected between two vertical side surfaces of, the upper transmission belt 5 in the same group is connected with the middle position of the middle upper transmission belt roller 22 and the upper transmission belt roller 23 on the outlet side in a transmission way, the vertical inner walls of the two length directions of the adsorption box groove 2 close to the clothes inlet side are respectively connected with the two lower transmission belt rollers 59 on the inlet side in a rotating way, the axes of the two lower transmission belt rollers 59 on the inlet side are the same, the length direction of the lower transmission belt roller 59 on the inlet side is parallel to the width direction of the lower transmission belt 4, the two ends of the lower transmission belt roller 59 on the inlet side are respectively connected with the vertical inner walls of the length direction of the adsorption box groove 2 and the close side surfaces of the lower adsorption box 51 in a rotating way, the middle position of the vertical inner walls of the two length directions of the adsorption box groove 2 is connected with the middle lower transmission belt roller 24 in a rotating way, the length direction of the middle lower transmission belt roller 24 is parallel to the width direction of the lower transmission belt roller 4, the, the lower adsorption box 51 is rotatably connected between two vertical side surfaces far away from the clothes entering side to an exit side lower transmission belt roller 25 with the length direction parallel to the width direction of the lower transmission belt 4, the lower transmission belt 4 in the same group is in transmission connection with the middle position of the middle lower transmission belt roller 24 and the exit side lower transmission belt roller 25, and the main body table 1 is provided with a roller rotating mechanism for driving the middle lower transmission belt roller 24 and the middle upper transmission belt roller 22 to rotate.

Referring to fig. 1 and 3, the roller rotating mechanism includes a lower roller sheave 41 coaxially and fixedly connected to one end of the middle lower belt roller 24 exposed out of the main body table 1, an upper roller sheave 42 coaxially and fixedly connected to one end of the middle upper belt roller 22 exposed out of the vertical plate 3, a roller motor 43 fixedly connected to the vertical outer wall of the main body table 1 in the length direction, a motor sheave 44 coaxially and fixedly connected to an output shaft of the roller motor 43, a motor sheave 44, an upper roller sheave 42, lower roll sheave 41 between the transmission be connected with a driving belt 45, the equal fixedly connected with vertical plate piece 48 in length direction both ends upper portion department of the vertical side of two blocks of risers 3 back of the body mutually, the equal fixedly connected with cylinder seat piece 49 in length direction both ends of the vertical side of 1 two length directions of main part platform, the equal fixedly connected with cylinder body in each cylinder seat piece 49 upper surface is vertical riser cylinder 31, the equal fixed connection in the lower surface of a corresponding vertical plate piece 48 in power rod upper end of each riser cylinder 31.

Referring to fig. 1 and 6, the negative pressure device includes a thread end box 55 connected to the connection between the upper suction box 53 and the lower suction box 51, a negative pressure fan 56 connected to the side of the thread end box 55 away from the connection between the upper suction box 53 and the lower suction box 51, the negative pressure fan 56 making the upper suction box 53 and the lower suction box 51 form a negative pressure environment to suck and remove thread ends on the surface of the clothes, a filter screen 57 capable of blocking thread ends from entering the negative pressure fan 56 is fixedly connected to the inner wall of the thread end box 55, the filter screen 57 is inclined and the lower end of the filter screen 57 is close to the negative pressure fan 56, so that when the negative pressure fan stops working, the thread ends gathered on the surface of the filter screen can automatically fall down, a thread end processing mechanism for taking out thread ends for centralized processing is installed at the bottom of the thread end box 55, the thread end processing mechanism includes a take-out box groove 36 opened at the vertical outer wall of the thread end box 55 along the horizontal direction, the taking-out box groove 36 is formed in the wall thickness of the thread end box 55, the taking-out box groove 36 is connected with the taking-out box 37 in a sliding mode along the self-opening direction, the upper surface of the taking-out box 37 is located in the taking-out box groove 36, the vertical outer wall of the thread end box 55 is located at the opening of the taking-out box groove 36, the mounting block groove 38 communicated with the taking-out box groove 36 is formed in the opening of the taking-out box groove 36, the vertical outer wall fixedly connected with of the thread end box 55 exposed out of the taking-out box 37 is connected with the mounting block 39 in a sliding mode in the mounting block groove 38, and the two ends of.

Referring to fig. 2 and 7, the outer wall of the upper adsorption box 53 is communicated with an upper belt adsorption tube 46 close to the upper surface of the upper belt 5 on one side where the clothing enters, the length direction of the upper belt adsorption tube 46 is parallel to the width direction of the upper belt 5, the upper belt adsorption tube 46 penetrates through the upper belt adsorption port 26 facing the upper surface of the upper belt 5 along the length direction, the air flow direction at the opening of the upper belt adsorption port 26 is parallel to the moving direction of the upper surface of the upper belt 5, the outer wall of the lower adsorption box 51 is communicated with a lower belt adsorption tube 47 close to the lower surface of the lower belt 4 on one side where the clothing enters, the length direction of the lower belt adsorption tube 47 is parallel to the width direction of the lower belt 4, the lower belt adsorption tube 47 penetrates through the lower belt adsorption port 27 facing the lower surface of the lower belt 4 along the length direction, and the air flow direction at the opening of the lower belt adsorption port 27 is parallel to the moving direction of the lower surface of the.

The garment processing technology of the embodiment of the application is implemented according to the following principle: the clothes are driven and conveyed through clamping between the upper transmission belt 5 and the lower transmission belt 4, then a negative pressure environment is formed in the upper adsorption hole 54 and the lower adsorption hole 52 through the negative pressure fan 56, so that the thread ends on the surfaces of the clothes are adsorbed and treated, the thread ends finally enter the thread end box 55, the mounting screws 21 can be screwed down when the machine is stopped, and then the taking-out box 37 is taken out, so that the thread ends are intensively treated.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.