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CN-224212879-U - Twill hosepipe circular loom

CN224212879UCN 224212879 UCN224212879 UCN 224212879UCN-224212879-U

Abstract

A twill water belt circular loom. The problem of current hosepipe circular knitting machine when directly driving the palm pole motion through big cam when processing, big cam rotates slowly, machining efficiency is low, and causes the palm pole swing easily is solved. The palm frame comprises a first mounting frame, a main shaft, a cam, palm frame assemblies, a sliding block assembly and a swinging rod assembly, wherein the cam is arranged on the main shaft and driven by the main shaft to rotate, a driving track is arranged on the cam, each palm frame assembly comprises a plurality of palm threads for passing through palm fibers, the sliding block assembly is arranged on the sliding block assembly and driven by the sliding block assembly to reciprocate linearly, the swinging rod assembly comprises a swinging rod, one end of the swinging rod is connected with the driving track and driven by the driving track to swing, and a swinging gap is arranged between the other end of the swinging rod and the sliding block assembly so that the swinging rod slides relative to the sliding block assembly and drives the sliding block assembly to reciprocate vertically. The utility model also has the advantages of simple structure, convenient assembly, reliable action, long service life and the like.

Inventors

  • XU ZHIQIANG
  • Li Shanqu
  • CHEN QINGLONG
  • Li Shanshun
  • CHEN JUN

Assignees

  • 浙江南一塑料机械有限公司

Dates

Publication Date
20260508
Application Date
20250530

Claims (10)

  1. 1. The twill hosepipe circular loom comprises a first mounting frame (1) and a main shaft (2), and is characterized by further comprising: The cam (3) is arranged on the main shaft (2) and is driven by the main shaft (2) to rotate, and a driving track (31) is arranged on the cam (3); palm frame components (4), wherein each palm frame component (4) comprises a plurality of palm fibers (41) for warp threads to pass through; The palm frame assembly (4) is arranged on the slide block assembly (5) and is driven by the slide block assembly (5) to linearly reciprocate; The swing rod assembly (6), the swing rod assembly (6) include swing rod (61), swing rod (61) one end link to each other and by drive track (31) drive its swing, be equipped with swing clearance (62) between the other end and slider assembly (5) so that swing rod (61) slide and drive slider assembly (5) up-and-down reciprocating motion relative slider assembly (5).
  2. 2. The twill water belt circular loom according to claim 1, characterized in that the palm frame components (4) are integrated by three groups, each group of palm frame components (4) is arranged corresponding to one group of slide block components (5), the swing rod components (6) are integrated by three groups, and each group of slide block components (5) is driven by one group of swing rod components (6) to reciprocate in a straight line.
  3. 3. A twill hosepipe circular knitting machine according to claim 2, characterized in that three groups of palm frame components (4) are arranged along the radial direction of the cam, three groups of swing rod components (6) are arranged along the axis of the parallel cam (3), and three driving tracks (31) on the cam (3) are respectively used for driving three groups of different swing rod components (6) to swing.
  4. 4. The twill water belt circular loom according to claim 2 is characterized by further comprising a second mounting frame (7), wherein a plurality of groups of palm frame assemblies (4) are arranged above the second mounting frame (7), the plurality of groups of palm frame assemblies (4) are integrated by three groups and are circumferentially and uniformly distributed above the second mounting frame (7), a first fixing frame (11) and a second fixing frame (12) are arranged on the first mounting frame (1), and three groups of different swing rod assemblies (6) are respectively arranged on the first mounting frame (1), the first fixing frame (11) and the second fixing frame (12).
  5. 5. A twill belt circular loom according to claim 1, characterized in that said oscillating bar assembly (6) comprises: The swing rod seat (63) is used for mounting and fixing, and the swing rod (61) is arranged on the swing rod seat (63) and swings relative to the swing rod seat (63); the swing rod wheels (64) are arranged at one end of the swing rod (61), the two swing rod wheels (64) are mutually matched to form a swing groove (65) matched with the driving track (31), and the two swing rod wheels (64) are arranged at the upper side and the lower side of the driving track (31) and enable the swing rod (61) to swing up and down along with the track of the driving track (31).
  6. 6. The twill water belt circular weaving machine according to claim 5, characterized in that the swing rod (61) is provided with a pulley (66), the sliding block assembly (5) comprises a pressing plate (51), the pressing plate (51) is provided with a sliding groove (52), the pulley (66) is arranged in the sliding groove (52) of the pressing plate (51) and is matched with the sliding groove (52) to form a swing gap (62), and the swing rod (61) swings around the swing rod seat (63) under the influence of the track of the driving track (31) and drives the pulley (66) to slide relative to the sliding groove (52) and drive the pressing plate (51) to vertically reciprocate.
  7. 7. The twill hosepipe circular knitting machine according to claim 5, characterized in that the swinging rod (61) is provided with a swinging block (69), the sliding block assembly (5) comprises a pressing plate (51), the swinging block (69) is arranged on the outer side of the pressing plate (51) and forms a swinging gap (62), and the swinging rod (61) is influenced by the track of the driving track (31) to swing around the swinging rod seat (63) and drive the swinging block (69) to slide relative to the pressing plate (51) and drive the pressing plate (51) to vertically reciprocate.
  8. 8. The twill water belt circular weaving machine according to claim 1, characterized in that the sliding block assembly (5) comprises a sliding block (53), a palm rod (54) and a limiting rod (55), the sliding block (53) drives the corresponding palm frame assembly (4) to synchronously move through the palm rod (54), a guide hole (532) is formed in the sliding block (53), and the limiting rod (55) penetrates through the guide hole (532) to be used for guiding and limiting the vertical movement of the sliding block (53).
  9. 9. The twill water belt circular weaving machine according to claim 8, characterized in that the sliding block (53) is provided with communication holes (531) for different groups of palm rods (54) to pass through.
  10. 10. A twill hose circular weaving machine according to claim 1, characterized in that the cam (3) is cast integrally and milled with the driving track (31), the distance from the axis of the cam (3) to the outer surface of the driving track (31) being 400-600mm.

Description

Twill hosepipe circular loom Technical Field The utility model relates to a circular loom, in particular to a twill water belt circular loom. Background The circular loom is a device for forming openings by layering warp threads up and down according to a certain rule, and the shuttle carries the warp threads to pass through the openings of the warp threads so as to make the warp threads and the weft threads interweave to form a tubular fabric. A water belt circular loom is one such device. The water belt circular loom layers the warp according to different rules by means of branching gears with different shapes, so that water belts with different lines are woven, and in general, the different lines of the water belt can be divided into two types, plain and twill. The plain weave is characterized by high compact strength because the warps and the wefts are staggered in a ratio of 1:1, but the water band becomes harder because of too many staggered points, and the permeation effect of the adhesive layer in the subsequent working procedure is influenced by the excessive density. The warp and weft interlacing ratio of the twill is 2:1, and the warp and weft interlacing points are less than those of plain weave under the same specification and the same process, so that the softness of the twill water band is better than that of the plain water band, and the glue penetration is more facilitated. The existing twill water belt circular loom generally drives the palm frame structure to reciprocate through a large cam. The maximum excircle diameter of the large cam is about 1200mm, and because the large cam has large volume and heavy weight, the matched parts such as a motor and the like required for driving the large cam to rotate are also relatively large, so that the energy consumption is large, and because the inertia is relatively large when the large cam rotates, the required energy consumption is relatively large, the safety and actual production are considered, and the rotating speed of the large cam is usually about 1 minute and 100 minutes, so that the existing braiding efficiency is lower. Disclosure of utility model The utility model provides a diagonal water belt circular loom, which aims to solve the problems that in the prior art, when a large cam directly drives a palm rod to move during processing, the large cam rotates slowly, the processing efficiency is low and the palm rod is easy to swing. The technical scheme of the utility model is that the twill water belt circular loom comprises a first mounting frame, a main shaft and further comprises: The cam is arranged on the main shaft and driven by the main shaft to rotate, and a driving track is arranged on the cam; the palm frame assemblies comprise a plurality of palm fibers for warp threads to pass through; The palm frame component is arranged on the sliding block component and is driven by the sliding block component to linearly reciprocate; The swing rod assembly comprises a swing rod, one end of the swing rod is connected with the driving track and driven to swing by the driving track, and a swing gap is arranged between the other end of the swing rod and the sliding block assembly, so that the swing rod slides relative to the sliding block assembly and drives the sliding block assembly to reciprocate up and down. As a further improvement of the utility model, the palm frame components are integrated by three groups, each group of palm frame components is arranged corresponding to one group of slide block components, the swing rod components are integrated by three groups, and each group of slide block components is driven by one group of swing rod components to reciprocate linearly. As a further improvement of the utility model, three groups of palm frame components are arranged along the radial direction of the cam, three groups of swing rod components are arranged along the axis of the parallel cam in a high-low arrangement mode, and three driving tracks on the cam are respectively used for driving three groups of different swing rod components to swing. The utility model further improves the first mounting frame, the second mounting frame and the third mounting frame, wherein a plurality of groups of palm frame assemblies are arranged above the second mounting frame, the plurality of groups of palm frame assemblies are integrated by three groups and are circumferentially and uniformly distributed above the second mounting frame, the first mounting frame is provided with a first fixing frame and a second fixing frame, and the three groups of different swing rod assemblies are respectively arranged on the first mounting frame, the first fixing frame and the second fixing frame. As a further improvement of the present utility model, the swing link assembly includes: The swing rod seat is used for mounting and fixing, and the swing rod is arranged on the swing rod seat and swings relative to the swing rod seat; the two swing rod wheels are arr