阅读说明：本技术 一种无缝内衣加工系统 (Seamless underwear processing system ) 是由 黄山 冯桂贤 于 2019-09-29 设计创作，主要内容包括：本发明涉及内衣加工设备领域,具体是涉及一种无缝内衣加工系统,包括驱动机构、辊压机构、切换传动机构、联动机构和机架,所述辊压机构设有两个,两个辊压机构对称固定在机架顶面的两端；所述驱动机构固定在一个辊压机构上,驱动机构传动连接一个辊压机构；所述驱动机构传动连接切换传动机构；所述切换传动机构固定在机架的中间；所述切换传动机构传动连接联动机构；所述联动机构固定在另一个辊压机构上；所述联动机构传动连接另一个辊压机构。本发明可以调节为对内衣进行弹性拉伸测试的状态,用于内衣加工后检测内衣或布料的弹性；也可以调节为对内衣的辊压平整输送模式,用于在内衣加工过程中对内衣进行平整处理或是输送处理。(The invention relates to the field of underwear processing equipment, in particular to a seamless underwear processing system, which comprises two driving mechanisms, two rolling mechanisms, a switching transmission mechanism, a linkage mechanism and a rack, wherein the two rolling mechanisms are symmetrically fixed at two ends of the top surface of the rack; the driving mechanism is fixed on one rolling mechanism and is in transmission connection with the one rolling mechanism; the driving mechanism is in transmission connection with the switching transmission mechanism; the switching transmission mechanism is fixed in the middle of the rack; the switching transmission mechanism is in transmission connection with the linkage mechanism; the linkage mechanism is fixed on the other rolling mechanism; the linkage mechanism is in transmission connection with the other rolling mechanism. The invention can be adjusted to the state of elastic tensile test of underwear, and is used for detecting the elasticity of underwear or cloth after the underwear is processed; the rolling flattening conveying mode of the underwear can be adjusted, and the rolling flattening conveying mode is used for flattening or conveying the underwear in the underwear processing process.)

1. The utility model provides a seamless underwear system of processing, includes actuating mechanism (1), rolling mechanism (2), switches drive mechanism (3), link gear (4) and frame (5), its characterized in that: the two rolling mechanisms (2) are symmetrically fixed at two ends of the top surface of the rack (5); the driving mechanism (1) is fixed on one rolling mechanism (2), and the driving mechanism (1) is in transmission connection with the one rolling mechanism (2); the driving mechanism (1) is in transmission connection with the switching transmission mechanism (3); the switching transmission mechanism (3) is fixed in the middle of the rack (5); the switching transmission mechanism (3) is in transmission connection with the linkage mechanism (4); the linkage mechanism (4) is fixed on the other rolling mechanism (2); the linkage mechanism (4) is in transmission connection with the other rolling mechanism (2).

2. The seamless undergarment processing system of claim 1, wherein: the driving mechanism (1) comprises a driving motor (101), a driving shaft (102), a first belt wheel (103), a first cylindrical gear (104) and a motor base (105); the driving motor (101) is fixed on a rolling mechanism (2) through a motor base (105); an output shaft of the driving motor (101) is fixedly connected with a driving shaft (102); the lower end of the driving shaft (102) is fixedly connected with a first belt wheel (103), and the first belt wheel (103) is connected with a switching transmission mechanism (3) through belt transmission; the upper end of the driving shaft (102) is fixedly connected with a first cylindrical gear (104); the first cylindrical gear (104) is in meshing transmission connection with a rolling mechanism (2).

3. A seamless undergarment processing system as claimed in claim 2, wherein: the switching transmission mechanism (3) comprises a second belt wheel (301), a rotating pipe (302) with a hexagonal through hole in the inner side, a pipe seat (303), a hexagonal sliding rod (304), a sliding screw (305), a positioning nut (306), a forward driver (307), a reverse driver (308) and a vertical frame (309); the second belt wheel (301) is fixed on the rotating pipe (302); the rotating pipe (302) is in rotating fit with the pipe seat (303), the pipe seat (303) is fixed on the vertical frame (309), and the vertical frame (309) is fixed in the middle of the rack (5); the middle part of the hexagonal sliding rod (304) is in sliding fit in the hexagonal through hole of the rotating pipe (302); the middle part of the six-edge sliding rod (304) is fixedly connected with a sliding screw (305), the sliding screw (305) is in sliding fit in a vertical groove of the rotating pipe (302), the outer end of the sliding screw (305) is connected with a positioning nut (306) through threads, and the inner side of the positioning nut (306) is tightly propped against the rotating pipe (302); the six-edge sliding rod (304) is in transmission connection with a forward driver (307) or a reverse driver (308); the forward driver (307) and the reverse driver (308) are respectively fixed at the lower end and the upper end of the stand (309); the forward driver (307) and the reverse driver (308) are respectively in transmission connection with the lower end and the upper end of the linkage mechanism (4).

4. A seamless undergarment processing system as claimed in claim 3, wherein: the forward drive (307) comprises a first hexagonal tube (307a) and a third pulley (307 b); the lower end of the hexagonal sliding rod (304) can be in sliding fit with a hexagonal groove on the inner side of the first hexagonal pipe (307 a); the middle part of the first hexagonal pipe (307a) is fixedly connected with a third belt wheel (307b), and the third belt wheel (307b) is connected with the lower end of the linkage mechanism (4) through belt transmission; the lower end of the first hexagonal pipe (307a) is rotatably fitted to the lower end of the stand (309).

5. A seamless undergarment processing system as claimed in claim 3, wherein: the reverse driver (308) comprises a second hexagonal tube (308a), a first gear (308b), a second gear (308c), a rotating rod (308d) and a fourth belt pulley (308 e); the upper end of the hexagonal sliding rod (304) can be in sliding fit with a hexagonal groove in the inner side of the second hexagonal pipe (308 a); the upper end of the second hexagonal pipe (308a) is rotatably matched with the upper end of the stand (309); a first gear (308b) in meshing transmission connection with a second gear (308c) is fixedly connected to the second hexagonal tube (308 a); the second gear (308c) and the fourth belt pulley (308e) are respectively fixed at two ends of the rotating rod (308 d); the rotating rod (308d) is rotatably matched at the upper end of the stand (309); the fourth belt wheel (308e) is connected with the upper end of the linkage mechanism (4) through belt transmission.

6. A seamless undergarment processing system as claimed in claim 4 or 5, wherein: the linkage mechanism (4) comprises a linkage belt wheel (401), a second cylindrical gear (402), a linkage shaft (403) and a shaft support (404); the middle part of the linkage shaft (403) is fixedly connected with a second cylindrical gear (402); the second cylindrical gear (402) is in meshing transmission connection with another rolling mechanism (2); the lower end of the linkage shaft (403) is rotationally matched on a shaft bracket (404), and the shaft bracket (404) is fixed on the other rolling mechanism (2); two linkage belt wheels (401) are fixedly connected to the linkage shaft (403), one linkage belt wheel (401) is in transmission connection with the third belt wheel (307b) through a belt, and the other linkage belt wheel (401) is in transmission connection with the fourth belt wheel (308e) through a belt.

7. The seamless undergarment processing system of claim 6, wherein: the rolling mechanism (2) comprises a fixed end face gear (201), a fixed wheel shaft (202), a fixed pressing roller (203), a movable end face gear (204), a movable wheel shaft (205), a dynamic pressure roller (206), a portal frame (207), a lifting frame (208), a lead screw (209), an adjusting handle (210) and an L-shaped seat (211); the fixed face gear (201) is fixed on a fixed wheel shaft (202), the fixed wheel shaft (202) is in running fit with the upper end of the portal frame (207), and the fixed pressing roller (203) is fixed in the middle of the fixed wheel shaft (202); the movable face gear (204) is fixed on a movable wheel shaft (205), the movable wheel shaft (205) is in sliding fit in vertical slideways at two ends of the door-shaped frame (207), the middle of the movable wheel shaft (205) is fixedly connected with a movable pressure roller (206), and the movable pressure roller (206) is arranged opposite to the fixed pressure roller (203); the movable wheel shaft (205) is rotationally matched at two ends of the lifting frame (208), and the side surfaces of two sides of the lifting frame (208) are in sliding fit with the inner side surface of the door-shaped frame (207); the middle end of the lifting frame (208) is connected with the upper end of a lead screw (209) in a rotating fit mode, the middle part of the lead screw (209) is connected to the door-shaped frame (207) through threads, and the lower end of the lead screw (209) is fixedly connected with an adjusting handle (210); the lower end of the door-shaped frame (207) is fixedly connected to the L-shaped seat (211); the L-shaped seat (211) is fixedly connected to the frame (5); the first cylindrical gear (104) is in meshing transmission connection with a fixed end face gear (201) and a movable end face gear (204) of a rolling mechanism (2); the second cylindrical gear (402) is in meshing transmission connection with a fixed end face gear (201) and a movable end face gear (204) of the rolling mechanism (2).

8. The seamless undergarment processing system of claim 7, wherein: a plurality of groups of positioning bolt holes are arranged on the frame (5) side by side, and the number of each group of positioning bolt holes is not less than two; the L-shaped seat (211) is fixedly connected with the rack (5) through the matching of the positioning bolt and the positioning bolt hole.

9. The seamless undergarment processing system of claim 8, wherein: the seamless underwear processing system also comprises a tensioning mechanism (6); the tensioning mechanism (6) comprises a guide roller (601), a roller shaft (602), a rectangular sliding block (603), a tensioning pressure spring (604), a vertical shaft (605), a sliding groove frame (606) and a side plate (607); the number of the sliding groove frames (606) is two, the two sliding groove frames (606) are arranged oppositely, one sliding groove frame (606) is fixed at the upper end of the vertical frame (309), the other sliding groove frame (606) is fixed at the upper end of the side plate (607), and the side plate (607) is fixed in the middle of the frame (5); the inner sides of the two chute frames (606) are respectively fixedly connected with a vertical shaft (605); the two vertical shafts (605) are respectively in sliding fit with the two rectangular sliding blocks (603), the rectangular sliding blocks (603) positioned on the same side are fixedly connected through tensioning compression springs (604), and the two tensioning compression springs (604) are respectively sleeved on the two vertical shafts (605); guide roller (601) are equipped with two, and two guide roller (601) are fixed respectively in the centre of two roller (602), and the both ends of two roller (602) are rotated respectively and are connected at two rectangle sliders (603).

10. The seamless undergarment processing system of claim 7, wherein: and rubber anti-slip sleeves are fixedly connected to the roll surfaces of the fixed pressure roll (203) and the dynamic pressure roll (206).

Technical Field

The invention relates to the field of underwear processing equipment, in particular to a seamless underwear processing system.

Background

For example, publication No. CN206880091U discloses an underwear processing apparatus comprising: a support frame; the workbench is fixedly arranged on the support frame; the processing unit is fixedly arranged on the workbench; the motor unit is fixedly arranged on the support frame, is positioned below the workbench and provides power for the machining unit; the operation box is fixedly arranged on the support frame, is positioned below the workbench and is electrically connected with the motor unit; the protective frame is fixedly arranged on at least three sides of the workbench, and the protective frame protrudes upwards from the plane of the workbench; the processing equipment cannot carry out tensile test on the elasticity of the underwear and cannot carry out rolling, flattening and conveying treatment on the underwear.

Disclosure of Invention

In view of the above, the present invention provides a seamless underwear processing system to solve the problems of the prior art; the invention can be adjusted to the state of elastic tensile test of underwear, and is used for detecting the elasticity of underwear or cloth after the underwear is processed; the rolling flattening conveying mode of the underwear can be adjusted, and the rolling flattening conveying mode is used for flattening or conveying the underwear in the underwear processing process.

In order to achieve the above object, the following solutions are proposed:

a seamless underwear processing system comprises a driving mechanism, two rolling mechanisms, a switching transmission mechanism, a linkage mechanism and a rack, wherein the two rolling mechanisms are symmetrically fixed at two ends of the top surface of the rack; the driving mechanism is fixed on one rolling mechanism and is in transmission connection with the one rolling mechanism; the driving mechanism is in transmission connection with the switching transmission mechanism; the switching transmission mechanism is fixed in the middle of the rack; the switching transmission mechanism is in transmission connection with the linkage mechanism; the linkage mechanism is fixed on the other rolling mechanism; the linkage mechanism is in transmission connection with the other rolling mechanism.

The driving mechanism comprises a driving motor, a driving shaft, a first belt wheel, a first cylindrical gear and a motor base; the driving motor is fixed on a rolling mechanism through a motor base; an output shaft of the driving motor is fixedly connected with a driving shaft; the lower end of the driving shaft is fixedly connected with a first belt wheel, and the first belt wheel is connected with a switching transmission mechanism through belt transmission; the upper end of the driving shaft is fixedly connected with a first cylindrical gear; the first cylindrical gear is in meshing transmission connection with a rolling mechanism.

The switching transmission mechanism comprises a second belt wheel, a rotating pipe with a hexagonal through hole arranged on the inner side, a pipe seat, a hexagonal sliding rod, a sliding screw, a positioning nut, a forward driver, a reverse driver and a vertical frame; the second belt wheel is fixed on the rotating pipe; the rotating pipe is rotationally matched on the pipe seat, the pipe seat is fixed on the vertical frame, and the vertical frame is fixed in the middle of the rack; the middle part of the hexagonal sliding rod is in sliding fit in the hexagonal through hole of the rotating pipe; the middle part of the hexagonal sliding rod is fixedly connected with a sliding screw rod, the sliding screw rod is in sliding fit in a vertical groove of the rotating pipe, the outer end of the sliding screw rod is connected with a positioning nut through threads, and the inner side of the positioning nut is tightly propped against the rotating pipe; the six-edge sliding rod is in transmission connection with a forward driver or a reverse driver; the forward driver and the reverse driver are respectively fixed at the lower end and the upper end of the vertical frame; the forward driver and the reverse driver are respectively in transmission connection with the lower end and the upper end of the linkage mechanism.

The forward driver comprises a first hexagonal tube and a third belt wheel; the lower end of the hexagonal sliding rod can be in sliding fit with the hexagonal groove in the inner side of the first hexagonal pipe; the middle part of the first hexagonal pipe is fixedly connected with a third belt wheel, and the third belt wheel is connected with the lower end of the linkage mechanism through belt transmission; the lower end of the first hexagonal pipe is in running fit with the lower end of the vertical frame.

The reverse driver comprises a second hexagonal tube, a first gear, a second gear, a rotating rod and a fourth belt wheel; the upper end of the hexagonal sliding rod can be in sliding fit with the hexagonal groove in the inner side of the second hexagonal pipe; the upper end of the second hexagonal pipe is rotatably matched with the upper end of the vertical frame; a first gear in meshing transmission connection with a second gear is fixedly connected to the second hexagonal pipe; the second gear and the fourth belt pulley are respectively fixed at two ends of the rotating rod; the rotating rod is rotatably matched with the upper end of the vertical frame; and the fourth belt pulley is connected with the upper end of the linkage mechanism through belt transmission.

The linkage mechanism comprises a linkage belt wheel, a second cylindrical gear, a linkage shaft and a shaft bracket; the middle part of the linkage shaft is fixedly connected with a second cylindrical gear; the second cylindrical gear is in meshing transmission connection with the other rolling mechanism; the lower end of the linkage shaft is rotationally matched on a shaft support, and the shaft support is fixed on the other rolling mechanism; two linkage belt wheels are fixedly connected to the linkage shaft, one linkage belt wheel is in transmission connection with the third belt wheel through a belt, and the other linkage belt wheel is in transmission connection with the fourth belt wheel through a belt.

The rolling mechanism comprises a fixed end face gear, a fixed wheel shaft, a fixed compression roller, a movable end face gear, a movable wheel shaft, a movable pressure roller, a door-shaped frame, a lifting frame, a screw rod, an adjusting handle and an L-shaped seat; the fixed end face gear is fixed on a fixed wheel shaft, the fixed wheel shaft is in rotating fit with the upper end of the portal frame, and the fixed pressure roller is fixed in the middle of the fixed wheel shaft; the movable end face gear is fixed on a movable wheel shaft, the movable wheel shaft is in sliding fit with the vertical slideways at the two ends of the door-shaped frame, the middle of the movable wheel shaft is fixedly connected with a dynamic pressure roller, and the dynamic pressure roller and the fixed pressure roller are arranged oppositely; the movable wheel shafts are rotationally matched at two ends of the lifting frame, and the side surfaces of two sides of the lifting frame are in sliding fit with the inner side surface of the door-shaped frame; the middle end of the lifting frame is in rotating fit with the upper end of the lead screw, the middle part of the lead screw is connected to the portal frame through threads, and the lower end of the lead screw is fixedly connected with the adjusting handle; the lower end of the door-shaped frame is fixedly connected to the L-shaped seat; the L-shaped seat is fixedly connected to the rack; the first cylindrical gear is in meshing transmission connection with a fixed end face gear and a movable end face gear of a rolling mechanism; and the second cylindrical gear is in meshing transmission connection with a fixed face gear and a movable face gear of a rolling mechanism.

A plurality of groups of positioning bolt holes are arranged on the rack side by side, and the number of each group of positioning bolt holes is not less than two; the L-shaped seat is fixedly connected with the rack through the matching of the positioning bolt and the positioning bolt hole.

The seamless underwear processing system further comprises a tensioning mechanism; the tensioning mechanism comprises a guide roller, a roller shaft, a rectangular sliding block, a tensioning pressure spring, a vertical shaft, a sliding groove frame and a side plate; the two sliding groove frames are oppositely arranged, one sliding groove frame is fixed at the upper end of the vertical frame, the other sliding groove frame is fixed at the upper end of the side plate, and the side plate is fixed in the middle of the rack; the inner sides of the two chute frames are respectively fixedly connected with a vertical shaft; the two vertical shafts are respectively in sliding fit with the two rectangular sliding blocks, the rectangular sliding blocks positioned on the same side are fixedly connected through tensioning compression springs, and the two tensioning compression springs are respectively sleeved on the two vertical shafts; the deflector roll is equipped with two, and two deflector rolls are fixed respectively in the centre of two roller shafts, and the both ends of two roller shafts rotate respectively and connect at two rectangle sliders.

And the roll surfaces of the fixed pressure roll and the dynamic pressure roll are fixedly connected with rubber anti-skidding sleeves.

The invention has the beneficial effects that: the invention can be adjusted to the state of elastic tensile test of the underwear by controlling the switching transmission mechanism, and is used for detecting the elasticity of the underwear or cloth after the underwear is processed; or the rolling flattening conveying mode of the underwear is adjusted to be used for flattening or conveying the underwear in the underwear processing process.

Drawings

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

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a schematic structural view of the drive mechanism of the present invention;

FIG. 4 is a first schematic structural view of the rolling mechanism of the present invention;

FIG. 5 is a second schematic structural view of the rolling mechanism of the present invention;

FIG. 6 is a schematic structural view of the shift actuator of the present invention;

FIG. 7 is a schematic structural view of the forward driver of the present invention;

FIG. 8 is a schematic view of the reverse drive of the present invention;

FIG. 9 is a schematic structural view of the linkage mechanism of the present invention;

FIG. 10 is a schematic structural view of the housing of the present invention;

fig. 11 is a schematic view of the structure of the tensioning mechanism of the present invention.

In the figure: a drive mechanism 1; a drive motor 101; a drive shaft 102; a first pulley 103; a first cylindrical gear 104; a motor base 105; a rolling mechanism 2; a fixed face gear 201; a fixed axle 202; a pressure setting roller 203; a moving face gear 204; a movable axle 205; a movable roller 206; a gantry 207; a lifting frame 208; a lead screw 209; an adjustment handle 210; an L-shaped seat 211; a switching transmission mechanism 3; a second pulley 301; a rotating pipe 302 with hexagonal through holes on the inner side; a stem 303; a hexagonal slide bar 304; a sliding screw 305; a set nut 306; a forward driver 307; a first hexagonal tube 307 a; a third pulley 307 b; a reverse driver 308; a second hexagonal tube 308 a; a first gear 308 b; a second gear 308 c; a rotating rod 308 d; a fourth pulley 308 e; a stand 309; a linkage mechanism 4; a linkage pulley 401; a second cylindrical gear 402; a linkage shaft 403; a shaft support 404; a frame 5; a tension mechanism 6; a guide roller 601; a roller shaft 602; a rectangular slider 603; a tension compression spring 604; a vertical shaft 605; a chute frame 606; side plates 607.

Detailed Description

The technical solution of the present invention will be clearly and completely described by the following detailed description. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.