阅读说明：本技术 一种家纺面料的传输系统 (Conveying system of home textile fabric ) 是由 桑浩 于 2020-07-23 设计创作，主要内容包括：本发明涉及一种家纺面料的传输系统。所述家纺面料的传输系统包括主传输组件、辅助通道、次通道与切换机构,主传输组件包括底架、主通道与传送通道,主通道安装于底架的顶部,传送通道与主通道相互间隔设置,辅助通道固定安装于传送通道的下方,次通道固定安装于辅助通道的下方,切换机构包括驱动组件与衔接组件,驱动组件安装于主通道的侧壁上,衔接组件转动地安装于主通道的一端并与驱动组件连接,驱动组件用于驱动衔接组件旋转,以利用衔接组件与传送通道/辅助通道/次通道衔接。所述家纺面料的传输系统的结构较为简单。(The invention relates to a conveying system for home textile fabric. The transmission system of the home textile fabric comprises a main transmission assembly, an auxiliary channel, a secondary channel and a switching mechanism, wherein the main transmission assembly comprises an underframe, the main channel and a transmission channel, the main channel is installed at the top of the underframe, the transmission channel and the main channel are arranged at intervals, the auxiliary channel is fixedly installed below the transmission channel, the secondary channel is fixedly installed below the auxiliary channel, the switching mechanism comprises a driving assembly and a linking assembly, the driving assembly is installed on the side wall of the main channel, the linking assembly is rotatably installed at one end of the main channel and connected with the driving assembly, and the driving assembly is used for driving the linking assembly to rotate so as to be linked with the transmission channel/the auxiliary channel/the secondary channel by utilizing the linking assembly. The structure of the conveying system of the home textile fabric is simple.)

1. A conveying system for home textile fabric is characterized by comprising a main conveying assembly, an auxiliary channel and a switching mechanism, wherein the main conveying assembly comprises a bottom frame, a main channel and a conveying channel, the main channel is arranged at the top of the bottom frame, the conveying channel and the main channel are arranged at intervals, the auxiliary channel is fixedly arranged below the conveying channel, the auxiliary channel is fixedly arranged below the auxiliary channel, the switching mechanism comprises a driving assembly and a linking assembly, the driving assembly is arranged on the side wall of the main channel, the linking assembly is rotatably arranged at one end of the main channel and is connected with the driving assembly, the driving assembly is used for driving the linking assembly to rotate, the chassis comprises a bottom plate and a support frame, the support frame is fixed on the bottom plate, the main channel is fixedly arranged at the top of the support frame, and the secondary channel is fixed on the bottom plate through a connecting structure.

2. The system for transporting home textile fabric according to claim 1, wherein the engagement assembly comprises a first plate, a second plate and a third plate, the first plate is rotatably connected to the end portion of the main channel through a round rod, the connecting end of the second plate is slidably inserted into the first plate, and the connecting end of the third plate is slidably inserted into the second plate.

3. A textile fabric transfer system as claimed in claim 2 wherein the connecting end of the second plate is connected to the first plate by a first compression spring and the connecting end of the third plate is connected to the second plate by a second compression spring.

4. A fabric conveying system for home textiles as claimed in claim 3, wherein the side wall of the main channel is provided with a mounting wall in a protruding manner, the driving assembly comprises a driving cylinder and a driving roller, the driving cylinder is mounted on the side wall of the main channel and connected with the end of the round rod, and the driving roller is fixedly mounted at one end of the round rod far away from the driving cylinder.

5. A home textile fabric conveying system as claimed in claim 4, wherein the driving assembly further comprises a driving belt, a tensioning roller, a first driven roller and a second driven roller, the tensioning roller, the first driven roller and the second driven roller are all mounted on the mounting wall, and the driving belt is sleeved on the driving roller, the tensioning roller, the first driven roller and the second driven roller.

6. The home textile fabric conveying system of claim 5, wherein the switching mechanism further comprises a linkage assembly, the linkage assembly comprises a first baffle plate and a second baffle plate, the first baffle plate is rotatably connected to the end portion of the auxiliary channel through a torsion spring, and the second baffle plate is rotatably connected to the end portion of the secondary channel through a torsion spring.

7. The system for transporting home textile fabric according to claim 6, wherein the linkage assembly further comprises a first connecting rod and a second connecting rod, one end of the first connecting rod is fixed at the end of the first driven roller, the other end of the first connecting rod is fixed with the first driving rod, one end of the second connecting rod is fixed at the end of the second driven roller, and the other end of the second connecting rod is fixed with the second driving rod.

8. The system for transporting home textile fabric according to claim 7, wherein the first baffle is perpendicular to the auxiliary channel, the second baffle is perpendicular to the secondary channel, the first driving rod abuts against one side of the first baffle, which is far from the main channel, and the second driving rod abuts against one side of the second baffle, which is far from the main channel.

9. The system for transporting home textile fabric according to claim 8, wherein the first driving rod is perpendicular to the first connecting rod, the second driving rod is perpendicular to the second connecting rod, an axial direction of the first driving rod is perpendicular to a transporting direction of the auxiliary channel, and an axial direction of the second driving rod is perpendicular to a transporting direction of the secondary channel.

10. The system for transporting home textile fabric according to claim 9, wherein the height position of the transporting channel is equal to the height position of the main channel, the middle of the side wall of the second baffle plate is concavely provided with a notch, and the second driving rod is aligned with the notch.

Technical Field

The invention relates to a conveying system for home textile fabric.

Background

Household textiles are also known as decorative textiles. It is a practical textile which has the function of beautifying and decorating human living environment, and comprises a decorative textile. As its name implies, decorative textiles are primarily intended for decoration. Therefore, the most basic requirements of such textile crystals are to fully realize the decoration purpose, and the decoration of the textile for decoration is mainly embodied by the color, pattern, style, texture and the like of the fabric. Meanwhile, great attention is paid to coordination with the surrounding environment and coordination with the decoration object. In actual production process, need utilize transmission system to transmit different home textile surface fabrics, and need switch the track during the surface fabric of transmission, general switching track structure needs actuating mechanism and propelling movement subassembly to mutually support and realizes, and its structure is comparatively complicated.

Disclosure of Invention

Therefore, a transmission system for the household fabric with a simple structure is needed.

A conveying system for home textile fabric comprises a main conveying assembly, an auxiliary channel, a secondary channel and a switching mechanism, wherein the main conveying assembly comprises a bottom frame, a main channel and a conveying channel, the main channel is arranged at the top of the bottom frame, the conveying channel and the main channel are arranged at intervals, the auxiliary channel is fixedly arranged below the conveying channel, the secondary channel is fixedly arranged below the auxiliary channel, the switching mechanism comprises a driving assembly and a linking assembly, the driving assembly is arranged on the side wall of the main channel, the linking assembly is rotatably arranged at one end of the main channel and is connected with the driving assembly, the driving assembly is used for driving the linking assembly to rotate, the chassis comprises a bottom plate and a support frame, the support frame is fixed on the bottom plate, the main channel is fixedly arranged at the top of the support frame, and the secondary channel is fixed on the bottom plate through a connecting structure.

In one embodiment, the engaging assembly includes a first plate, a second plate and a third plate, the first plate is rotatably connected to the end portion of the main channel through a round rod, the connecting end of the second plate is slidably inserted into the first plate, and the connecting end of the third plate is slidably inserted into the second plate.

In one embodiment, the connection end of the second plate is connected to the first plate by a first pressure spring, and the connection end of the third plate is connected to the second plate by a second pressure spring.

In one embodiment, a mounting wall is convexly arranged on the side wall of the main channel, the driving assembly comprises a driving air cylinder and a driving roller, the driving air cylinder is mounted on the side wall of the main channel and connected with the end portion of the round rod, and the driving roller is fixedly mounted at one end, far away from the driving air cylinder, of the round rod.

In one of them embodiment, drive assembly still includes the drive belt and all installs tensioning roller, first driven roller and the second driven roller on the installation wall, and the drive roller is located to the drive belt cover, on tensioning roller, first driven roller and the second driven roller.

In one embodiment, the switching mechanism further comprises a linkage assembly, the linkage assembly comprises a first baffle plate and a second baffle plate, the first baffle plate is rotatably connected to the end portion of the auxiliary passage through a torsion spring, and the second baffle plate is rotatably connected to the end portion of the secondary passage through a torsion spring.

In one embodiment, the linkage assembly further comprises a first connecting rod and a second connecting rod, one end of the first connecting rod is fixed at the end of the first driven roller, the other end of the first connecting rod is fixed with the first driving rod, one end of the second connecting rod is fixed at the end of the second driven roller, and the other end of the second connecting rod is fixed with the second driving rod.

In one embodiment, the first baffle is perpendicular to the auxiliary channel, the second baffle is perpendicular to the secondary channel, the first driving rod abuts against one side of the first baffle, which is far away from the main channel, and the second driving rod abuts against one side of the second baffle, which is far away from the main channel.

In one embodiment, the first driving rod is perpendicular to the first connecting rod, the second driving rod is perpendicular to the second connecting rod, the axial direction of the first driving rod is perpendicular to the conveying direction of the auxiliary channel, and the axial direction of the second driving rod is perpendicular to the conveying direction of the secondary channel.

In one embodiment, the height position of the conveying channel is equal to that of the main channel, the middle part of the side wall of the second baffle plate is concavely provided with a notch, and the second driving rod is aligned with the notch.

When the transmission system of the home textile fabric is used, the connection component can be connected with the transmission channel so as to transmit the home textile fabric on the column channel to the transmission channel. When another kind of home textile fabric needs to be conveyed to the auxiliary channel/sub-channel, the driving component drives the connecting component to rotate so as to be connected with the auxiliary channel/sub-channel by the connecting component, and further the home textile fabric is conveyed to the auxiliary channel/sub-channel, and therefore switching among various channels is completed. The invention can realize switching only by driving the linking component through one driving component, and switching is carried out without the mutual matching of the driving component and the pushing component, so the structure is simpler.

Drawings

Fig. 1 is a schematic perspective view of a conveying system of a home textile fabric according to an embodiment.

Fig. 2 is a perspective view of another perspective view of the home textile fabric delivery system shown in fig. 1.

Fig. 3 is a side view of a delivery system for a home textile fabric of an embodiment.

Fig. 4 is a partially enlarged view of fig. 1 at B.

Detailed Description

The invention relates to a conveying system for home textile fabric. For example, the conveying system of the home textile fabric comprises a main conveying assembly, an auxiliary channel, a secondary channel and a switching mechanism, wherein the main conveying assembly comprises a bottom frame, a main channel and a conveying channel. For example, the main channel is installed on the top of the chassis, the transmission channel and the main channel are arranged at intervals, the auxiliary channel is fixedly installed below the transmission channel, the sub-channel is fixedly installed below the auxiliary channel, and the switching mechanism comprises a driving assembly and a connecting assembly. For example, the driving assembly is mounted on the side wall of the main channel, and the engaging assembly is rotatably mounted at one end of the main channel and connected with the driving assembly. For example, the driving assembly is used for driving the engaging assembly to rotate so as to engage with the conveying channel/auxiliary channel/sub-channel by using the engaging assembly, and the chassis comprises a bottom plate and a supporting frame. For example, the supporting frame is fixed on the bottom plate, the main channel is fixedly arranged at the top of the supporting frame, and the secondary channel is fixed on the bottom plate through the connecting structure.

Referring to fig. 1 to 4, a conveying system for home textile fabric includes a main conveying assembly 10, an auxiliary channel 20, a sub-channel 30 and a switching mechanism 50, the main conveying assembly 10 includes a base frame 12, a main channel 13 and a conveying channel 15, the main channel 13 is installed on the top of the base frame 12, the conveying channel 15 and the main channel 13 are arranged at intervals, the auxiliary channel 20 is fixedly installed below the conveying channel 15, the sub-channel 30 is fixedly installed below the auxiliary channel 20, the switching mechanism 50 includes a driving assembly 51 and a linking assembly 52, the driving assembly 51 is installed on the side wall of the main channel 13, the linking assembly 52 is rotatably installed at one end of the main channel 13 and connected with the driving assembly 51, the driving assembly 51 is used for driving the linking assembly 52 to rotate so as to link with the conveying channel 15/the auxiliary channel 20/the sub-channel 30 by using the linking assembly 52, the base frame 12 includes a bottom plate and a supporting frame, the support frame is fixed on the bottom plate, the main channel 13 is fixedly arranged at the top of the support frame, and the secondary channel 30 is fixed on the bottom plate through a connecting structure.

In use, the transfer system for the home textile fabric may be engaged with the transfer passage 15 by the engagement assembly 52 to transfer the home textile fabric on the post passage to the transfer passage 15. When another kind of home textile fabric needs to be conveyed to the auxiliary channel 20/sub-channel 30, the driving component 51 drives the engaging component 52 to rotate, so that the engaging component 52 is engaged with the auxiliary channel 20/sub-channel 30, and the home textile fabric is conveyed to the auxiliary channel 20/sub-channel 30, and therefore switching among various channels is completed. Because the invention only needs one driving component 51 to drive the connecting component 52 to realize switching, and the driving component 51 and the pushing component do not need to be matched with each other to carry out switching, the structure is simpler.

For example, in order for the engaging member 52 to be adjusted in length to engage the transmission passage 15/the auxiliary passage 20/the sub passage 30, the engaging member 52 includes a first plate (not shown), a second plate 522 and a third plate 523, the first plate is rotatably connected to the end of the main passage 13 by a circular rod 517, the connecting end of the second plate 522 is slidably inserted into the first plate, and the connecting end of the third plate 523 is slidably inserted into the second plate 522. The connection end of the second plate 522 is connected to the first plate by a first pressure spring, and the connection end of the third plate 523 is connected to the second plate 522 by a second pressure spring. The side wall of the main channel is convexly provided with a mounting wall 131, the driving assembly 51 comprises a driving air cylinder 511 and a driving roller 512, the driving air cylinder 511 is mounted on the side wall of the main channel 13 and connected with the end part of a round rod 517, and the driving roller 512 is fixedly mounted at one end of the round rod 517 far away from the driving air cylinder 511. By providing the first and second pressure springs, the contraction distance of the second and third plates 522 and 523 can be adjusted to fit the ends of different passages.

For example, in order to facilitate stopping the fabric, the driving assembly 51 further includes a driving belt 513, and a tension roller 514, a first driven roller 515 and a second driven roller 516 which are all mounted on the mounting wall 131, and the driving belt 513 is sleeved on the driving roller 512, the tension roller 514, the first driven roller 515 and the second driven roller 516. The switching mechanism 50 further includes a linkage assembly 53, the linkage assembly 53 includes a first barrier 531 and a second barrier 532, the first barrier 531 is rotatably connected to the end of the auxiliary passage 20 by a torsion spring, and the second barrier 532 is rotatably connected to the end of the sub-passage 30 by a torsion spring. The linkage assembly 53 further includes a first link 533 and a second link 534, the first link 533 has one end fixed to an end of the first driven roller 515 and the other end fixed to the first driving rod 535, and the second link 534 has one end fixed to an end of the second driven roller 516 and the other end fixed to the second driving rod 536. The first baffle 531 is perpendicular to the auxiliary channel 20, the second baffle 532 is perpendicular to the sub-channel 30, the first driving rod 535 abuts against one side of the first baffle 531 away from the main channel 13, and the second driving rod 536 abuts against one side of the second baffle 532 away from the main channel 13. The first driving lever 535 is perpendicular to the first link 533, the second driving lever 536 is perpendicular to the second link 534, the axial direction of the first driving lever 535 is perpendicular to the conveying direction of the auxiliary channel 20, and the axial direction of the second driving lever 536 is perpendicular to the conveying direction of the sub channel 30. The height position of the conveying passage 15 is equal to the height position of the main passage 13, a notch 5326 is concavely formed in the middle of the side wall of the second shutter 532, and the second driving lever 536 is aligned with the notch 5326. By arranging the first baffle 531 on the auxiliary channel 20 and the second baffle 532 on the end of the secondary channel 30, the first baffle 531 and the second baffle 532 can be used to block the end of the auxiliary channel 20 and the end of the secondary channel 30, so as to block the fabric.

For example, the height position of the upper surface of the second plate 522 is lower than the height position of the upper surface of the first plate, and the height position of the upper surface of the third plate 523 is lower than the height position of the upper surface of the second plate 522. The height positions of the three plates are different, so that the home textile fabric can be conveniently guided to slide forward. For example, when the auxiliary channel 20 is needed to be utilized, the driving cylinder 511 is configured to drive the driving roller 512 to rotate by driving the circular rod 517, so as to drive the first driven roller 515 and the first link 533 to rotate by using the driving belt 513, the first driving rod 535 on the first link 533 abuts against the first baffle 531 to rotate so as to open the end of the auxiliary channel 20, and the circular rod 517 synchronously drives the first plate/the second plate 522/the third plate 523 to rotate and descend until the end of the third plate 523 abuts against and is engaged with the end of the auxiliary channel 20, so as to establish engagement between the main channel 13 and the auxiliary channel 20 by using the engaging assembly 52. In the process, the second link 534 is driven by the belt 513 to rotate, so as to drive the second driving rod 536 to rotate and pass through the slot 5326 of the second blocking plate 532. Since the second blocking plate 532 has the notch 5326 at the edge, the second driving rod 536 can be easily inserted, so that the second blocking plate 532 is not affected when the first driving rod 535 drives the first blocking plate 531 to rotate. The end of the auxiliary passage 20 is opened by a driving cylinder 511, and engagement of the engaging member 52 is achieved.

For example, in order to facilitate the connection of the main channel 13 with the sub channel 30 using the engaging member 52, the length of the second driven roller 516 is greater than that of the first driven roller 515, the circumferential surface of the end of the second driven roller 516 adjacent to the mounting wall 131 is smooth, and the circumferential surface of the end of the second driven roller 516 remote from the mounting wall 131 is rough. The middle part of the bottom plate is convexly provided with a mounting rod 18, and the top end of the mounting rod 18 is connected to the top of the support frame. The diameter of the driving roller 512 is larger than that of the first follower roller 515, and the diameter of the second follower roller 516 is larger than that of the first follower roller 515. The centers of the first driven roller 515, the second driven roller 516 and the driving roller 512 are connected to form a triangle. The second driven roller 516 is located obliquely below the first driven roller 515, and the tension roller 514 is located below the side of the second driven roller 516 remote from the conveying path 15. The mounting wall 131 is formed with a slide passage 134 and a bypass passage 135, and one end of the slide passage 134 extends to a side of the first driven roller 515 away from the drive roller 512, and the other end penetrates the mounting wall 131 toward a side wall of the mounting lever 18. The slide passage 134 in the area surrounded by the belt 513 penetrates the side of the mounting wall 131 (i.e., is recessed in the surface of the mounting wall 131). The side shift passage 135 is recessed in the surface of the mounting wall 131, and the side shift passage 135 extends from the first follower roller 515 toward the drive roller 512. A first insert post is coaxially fixed to an end of the first driven roller 515, the first insert post is slidably inserted into the side shift channel 135, and a pressing spring is connected to the first insert post and used for pressing and holding the first insert post so that the first driven roller 515 is held at the end of the side shift channel 135 (the pressing spring is hard enough to overcome the movement of the first driven roller 515 caused by the rotation of the driving belt 513). A second insert post is fixed to an end of the second driven roller 516, and is slidably inserted into the slide passage 134. The switching mechanism 50 further comprises a switching assembly 55, the switching assembly 55 comprises a switching cylinder 551 and a switching rod 552, the switching cylinder 551 is mounted on the mounting rod 18, the switching rod 552 is coaxially fixed on an output shaft of the switching cylinder 551, the switching rod 552 is slidably inserted into the sliding channel 134, an end of the switching rod 552 is provided with a ferrule, and an end of the second insertion column is drivingly inserted into the ferrule. The first link 533 is an L-shaped rod.

For example, when it is desired to convey the home textile fabric using the secondary path 30, the switching cylinder 551 is configured to drive the second driven roller 516 to move to the end of the sliding path 134 via the switching lever 552, such that the second driven roller 516 is located on the side of the first driven roller 515 away from the driving roller 512, the second driven roller 516 presses the first driven roller 515 to move along the bypass path 135, such that the first driven roller 515 is located between the first driven roller 515 and the driving roller 512, the tension roller 514, and the second driven roller 516 are sleeved with the driving belt 513, such that the first driven roller 515 is released (since the diameter of the first driven roller 515 is small, the driving roller 512 and the second driven roller 516 are cut between the driving roller 512 and the second driven roller 516, and the peripheral surface thereof is not in contact with the driving belt 513; the original position of the second driven roller 516 after leaving is supported only by the tension roller 514, and the side of the second driven roller, the smooth surface of the second driven roller 516 is intended to come into contact with the peripheral surface of the first driven roller 515 (so that the rotation of the second driven roller 516 does not bring the first driven roller 515 into rotation by friction). The second link 534 is adapted to move to a side of the first link 533 toward the mounting wall 131 under the moving drive of the second driven roller 516, and to displace the second driving lever 536 from the notch 5326. The driving cylinder 511 is used for driving the driving roller 512 to rotate through the round rod 517, and driving the second driven roller 516 to drive the second connecting rod 534 and the second driving rod 536 to rotate through the driving belt 513, so that the second driving rod 536 abuts against the second baffle 532 to rotate, and the end of the secondary channel 30 is opened, and the first plate/the second plate 522/the third plate 523 simultaneously rotates and rotates downwards under the driving of the round rod 517 until the end of the third plate 523 abuts against and is connected with the end of the secondary channel 30, so that the connection between the main channel 13 and the third channel is completed, and the transmission of the home textile fabric from the main channel 13 to the secondary channel 30 is realized.

By arranging the switching assembly 55, the opening of the auxiliary channel 20 when the sub-channel 30 is opened can be avoided, so that the opening of the auxiliary channel 20 and the opening of the sub-channel 30 are independent from each other, and the mutual interference of fabric conveying is avoided. The slot 5326 allows the second driving rod 536 to pass through when the auxiliary channel 20 is opened, so as to ensure that the auxiliary channel 20 is opened and the secondary channel 30 is not opened. After the switching mechanism 50 switches the position of the second driven roller 516, the second driving rod 536 may be staggered from the notch 5326 to drive the second baffle 532 to turn over the opened sub-channel 30 by using the second driving rod 536, and at this time, the smooth surface of the second driving roller 512 does not drive the first driving roller 512 to rotate, so as to keep the closed state of the auxiliary channel 20, and the first driving roller 512 does not laterally displace in the bypass channel 135 enough to make the first driving roller 512 drive the first baffle 531 to turn over by a large angle. And the subsequent position of the second driven roller 516 is on the side of the first driven roller 515, the slack at the tension roller 514 after the second driven roller 516 moves can be compensated. It will be appreciated that the above-described configuration can be restored to its original state after the switching cylinder 551 is contracted. In conclusion, by arranging the switching assembly 55, the mutual independence of the opening of the auxiliary channel 20 and the opening of the sub-channel 30 are ensured, and the classification accuracy and the conveying efficiency of the conveyed fabric are improved.